基于引导编辑器的高通量筛选揭示了人类细胞中的功能性同义突变。

Prime editor-based high-throughput screening reveals functional synonymous mutations in human cells.

作者信息

Niu Xuran, Tang Wei, Liu Yongshuo, Mo Binrui, Yu Ying, Liu Ying, Wei Wensheng

机构信息

Biomedical Pioneering Innovation Center, Beijing Advanced Innovation Center for Genomics, Peking-Tsinghua Center for Life Sciences, Peking University Genome Editing Research Center, State Key Laboratory of Gene Function and Modulation Research, School of Life Sciences, Peking University, Beijing, China.

Academy for Advanced Interdisciplinary Studies, Peking University, Beijing, China.

出版信息

Nat Biotechnol. 2025 Jun 24. doi: 10.1038/s41587-025-02710-z.

DOI:10.1038/s41587-025-02710-z

PMID:40555761

Abstract

Synonymous mutations are generally considered neutral, while their roles in the human genome remain largely unexplored. Here we use the PEmax system to create a library of 297,900 engineered prime-editing guide RNAs and perform extensive screening to identify synonymous mutations affecting cell fitness. Unlike recent findings in yeast, group-level analyses show that synonymous mutations diverge from nonsynonymous mutations in fitness effects yet exhibit similar phenotypic distributions relative to negative controls. Following rigorous quality control, only a small subset demonstrated measurable effects. For these functional mutations, we develop a specialized machine learning tool and uncover their impact on various biological processes such as messenger RNA splicing and transcription, supported by multifaceted experimental evidence. We find that synonymous mutations can alter RNA folding and affect translation, as demonstrated by PLK1_S2. By integrating screening data with our model, we predict clinically deleterious synonymous mutations. This research deepens our understanding of synonymous mutations, providing insights for clinical disease studies.

摘要

同义突变通常被认为是中性的，但其在人类基因组中的作用在很大程度上仍未被探索。在这里，我们使用PEmax系统创建了一个包含297,900个工程化引导编辑向导RNA的文库，并进行了广泛的筛选，以识别影响细胞适应性的同义突变。与酵母中的最新发现不同，群体水平分析表明，同义突变在适应性效应上与非同义突变不同，但相对于阴性对照表现出相似的表型分布。经过严格的质量控制后，只有一小部分显示出可测量的效应。对于这些功能性突变，我们开发了一种专门的机器学习工具，并在多方面实验证据的支持下，揭示了它们对诸如信使RNA剪接和转录等各种生物学过程的影响。我们发现，如PLK1_S2所示，同义突变可以改变RNA折叠并影响翻译。通过将筛选数据与我们的模型相结合，我们预测了临床上有害的同义突变。这项研究加深了我们对同义突变的理解，为临床疾病研究提供了见解。

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基于引导编辑器的高通量筛选揭示了人类细胞中的功能性同义突变。

Prime editor-based high-throughput screening reveals functional synonymous mutations in human cells.

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