Real-time identification of epistatic interactions in SARS-CoV-2 from large genome collections

IF 10.1 1区生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Genome Biology Pub Date : 2024-08-22 DOI:10.1186/s13059-024-03355-y

Gabriel Innocenti, Maureen Obara, Bibiana Costa, Henning Jacobsen, Maeva Katzmarzyk, Luka Cicin-Sain, Ulrich Kalinke, Marco Galardini

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Abstract

The emergence of the SARS-CoV-2 virus has highlighted the importance of genomic epidemiology in understanding the evolution of pathogens and guiding public health interventions. The Omicron variant in particular has underscored the role of epistasis in the evolution of lineages with both higher infectivity and immune escape, and therefore the necessity to update surveillance pipelines to detect them early on. In this study, we apply a method based on mutual information between positions in a multiple sequence alignment, which is capable of scaling up to millions of samples. We show how it can reliably predict known experimentally validated epistatic interactions, even when using as little as 10,000 sequences, which opens the possibility of making it a near real-time prediction system. We test this possibility by modifying the method to account for the sample collection date and apply it retrospectively to multiple sequence alignments for each month between March 2020 and March 2023. We detected a cornerstone epistatic interaction in the Spike protein between codons 498 and 501 as soon as seven samples with a double mutation were present in the dataset, thus demonstrating the method’s sensitivity. We test the ability of the method to make inferences about emerging interactions by testing candidates predicted after March 2023, which we validate experimentally. We show how known epistatic interaction in SARS-CoV-2 can be detected with high sensitivity, and how emerging ones can be quickly prioritized for experimental validation, an approach that could be implemented downstream of pandemic genome sequencing efforts.

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从大型基因组集合中实时识别 SARS-CoV-2 中的表观相互作用

SARS-CoV-2 病毒的出现凸显了基因组流行病学在了解病原体进化和指导公共卫生干预方面的重要性。尤其是 Omicron 变异突显了外显子在具有较高感染性和免疫逃逸性的品系进化中的作用，因此有必要更新监测管道以尽早发现它们。在本研究中，我们采用了一种基于多序列比对中位置间互信息的方法，该方法可扩展至数百万个样本。我们展示了该方法如何可靠地预测已知的、经实验验证的表观相互作用，即使使用的序列少至 10,000 个，这为使其成为近乎实时的预测系统提供了可能性。我们通过修改该方法以考虑样本采集日期，并将其追溯应用于 2020 年 3 月至 2023 年 3 月期间每个月的多序列比对，来测试这种可能性。只要数据集中出现 7 个双突变样本，我们就能检测到 Spike 蛋白质中密码子 498 和 501 之间的基石表观相互作用，从而证明了该方法的灵敏度。我们测试了 2023 年 3 月之后预测的候选相互作用，并通过实验验证了该方法推断新出现相互作用的能力。我们展示了如何高灵敏度地检测 SARS-CoV-2 中已知的表观相互作用，以及如何快速优先对新出现的相互作用进行实验验证，这种方法可以在大流行病基因组测序工作的下游实施。

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

Genome Biology Biochemistry, Genetics and Molecular Biology-Genetics

CiteScore

21.00

自引率

3.30%

发文量

241

审稿时长

2 months

期刊介绍： Genome Biology stands as a premier platform for exceptional research across all domains of biology and biomedicine, explored through a genomic and post-genomic lens. With an impressive impact factor of 12.3 (2022),* the journal secures its position as the 3rd-ranked research journal in the Genetics and Heredity category and the 2nd-ranked research journal in the Biotechnology and Applied Microbiology category by Thomson Reuters. Notably, Genome Biology holds the distinction of being the highest-ranked open-access journal in this category. Our dedicated team of highly trained in-house Editors collaborates closely with our esteemed Editorial Board of international experts, ensuring the journal remains on the forefront of scientific advances and community standards. Regular engagement with researchers at conferences and institute visits underscores our commitment to staying abreast of the latest developments in the field.

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