了解 m6A-BERT-Deg 介导的 YTHDF2- mRNA 降解

Ting-He Zhang, Sumin Jo, Michelle Zhang, Kai Wang, Shou-Jiang Gao, Yufei Huang
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引用次数: 0

摘要

N6-甲基腺苷(m6A)是哺乳动物细胞内最丰富的mRNA修饰,在调控mRNA稳定性、翻译和剪接方面具有关键意义。此外,它还主要通过招募 YTHDF2 阅读蛋白在 RNA 降解调控中发挥关键作用。然而,人们对 m6A 甲基化 mRNA 通过 YTHDF2 结合选择性调控 mRNA 降解还知之甚少。为了加深理解,我们开发了 m6A-BERT-Deg,这是一个用于预测 YTHDF2 介导的 m6A 甲基化 mRNA 降解的 BERT 模型。为了克服训练样本少的限制,我们采用了预训练-微调策略,首先在 427,760 个未标记的 m6A 位点序列上对模型进行了自监督预训练。测试结果表明了这种预训练策略在使m6A-BERT-Deg超越其他基准模型方面的重要性。我们进一步进行了全面的模型解释,发现了一个惊人的发现,即在 m6A 位点附近存在辅助因子可能会破坏 YTHDF2 介导的 mRNA 降解,从而增强 mRNA 的稳定性。我们还将分析扩展到了 HEK293 细胞系,揭示了 YTHDF2- 介导的 mRNA 降解的环境依赖性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Understanding YTHDF2-mediated mRNA Degradation By m6A-BERT-Deg
N6-methyladenosine (m6A) is the most abundant mRNA modification within mammalian cells, holding pivotal significance in the regulation of mRNA stability, translation, and splicing. Furthermore, it plays a critical role in the regulation of RNA degradation by primarily recruiting the YTHDF2 reader protein. However, the selective regulation of mRNA decay of the m6A-methylated mRNA through YTHDF2 binding is poorly understood. To improve our understanding, we developed m6A-BERT-Deg, a BERT model adapted for predicting YTHDF2-mediated degradation of m6A-methylated mRNAs. We meticulously assembled a high-quality training dataset by integrating multiple data sources for the HeLa cell line. To overcome the limitation of small training samples, we employed a pre-training-fine-tuning strategy by first performing a self-supervised pre-training of the model on 427,760 unlabeled m6A site sequences. The test results demonstrated the importance of this pre-training strategy in enabling m6A-BERT-Deg to outperform other benchmark models. We further conducted a comprehensive model interpretation and revealed a surprising finding that the presence of co-factors in proximity to m6A sites may disrupt YTHDF2-mediated mRNA degradation, subsequently enhancing mRNA stability. We also extended our analyses to the HEK293 cell line, shedding light on the context-dependent YTHDF2-mediated mRNA degradation.
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