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利用长读长测序技术对感染组织中的1型牡蛎疱疹病毒基因组进行特征分析

Evaluation of long-read sequencing for Ostreid herpesvirus type 1 genome characterization from infected tissues.

作者信息

Dotto-Maurel Aurélie, Pelletier Camille, Degremont Lionel, Heurtebise Serge, Arzul Isabelle, Morga Benjamin, Chevignon Germain

机构信息

Ifremer, ASIM, La Tremblade, France.

出版信息

Microbiol Spectr. 2025 Mar 4;13(3):e0208224. doi: 10.1128/spectrum.02082-24. Epub 2025 Jan 23.

DOI:10.1128/spectrum.02082-24
PMID:39846760
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11878034/
Abstract

Since the 1990s, the Pacific oyster has faced significant mortality, which has been associated with the detection of the Ostreid Herpesvirus type 1 (OsHV-1). Due to the complex genomic architecture and the presence of multiple genomic isomers, short-read sequencing using Illumina method struggles to accurately assemble tandem and repeat regions and to identify and characterize large structural variations in the OsHV-1 genome. Third-generation sequencing technologies, as long-read real-time nanopore sequencing from Oxford Nanopore Technologies (ONT), offer new possibilities for OsHV-1 whole-genome analysis. Identification of the best method for extraction of high molecular weight (HMW) DNA and development of accurate bioinformatic pipelines for its characterization are now required. To this end, we evaluated and compared six HMW methods and one conventional DNA extraction kit for their ability to extract OsHV-1 DNA from -infected tissues. We then evaluated the ability of ONT sequencing to produce an accurate OsHV-1 genome from both whole-genome and "adaptive sampling" (AS) sequencing approaches. Finally, we evaluated the efficiency of bioinformatics tools for assembly and consensus calling to generate accurate OsHV-1 genomes. The HMW DNA extraction kit coupled with ONT sequencing and dedicated bioinformatics tools allowed us to produce accurate OsHV-1 genomes compared to those assembled using Illumina technology. The AS approach allowed up to 60% enrichment for viral data, and the long reads generated by ONT allowed the characterization of OsHV-1 isomers. Together with its portability, this sequencing shows great promise as a diagnostic tool for the characterization of unculturable aquatic viruses directly from host tissues.IMPORTANCEMany aquatic viruses threaten commercially valuable species and cause significant economic losses during outbreaks. To improve our understanding of the origin, transmission patterns and spread of these viruses, additional genomic data are essential. However, genomic characterization of unculturable large DNA viruses is a major challenge. In the present study, we have successfully evaluated the ability of ONT sequencing and adaptive sequencing (AS) to sequence and assemble the complete OsHV-1 genome. Our results show that it is now possible to sequence the whole genome of large DNA viruses directly from infected host tissue, without the need for prior propagation or prior laboratory steps for virus enrichment.

摘要

自20世纪90年代以来,太平洋牡蛎面临着严重的死亡现象,这与检测到1型牡蛎疱疹病毒(OsHV-1)有关。由于其复杂的基因组结构以及多种基因组异构体的存在,使用Illumina方法进行的短读长测序难以准确组装串联和重复区域,也难以识别和表征OsHV-1基因组中的大结构变异。第三代测序技术,如牛津纳米孔技术公司(ONT)的长读长实时纳米孔测序,为OsHV-1全基因组分析提供了新的可能性。现在需要确定提取高分子量(HMW)DNA的最佳方法,并开发用于其表征的准确生物信息学流程。为此,我们评估并比较了六种HMW方法和一种传统DNA提取试剂盒从感染组织中提取OsHV-1 DNA的能力。然后,我们评估了ONT测序从全基因组和“适应性采样”(AS)测序方法生成准确的OsHV-1基因组的能力。最后,我们评估了生物信息学工具在组装和生成一致序列以生成准确的OsHV-1基因组方面的效率。与使用Illumina技术组装的基因组相比,HMW DNA提取试剂盒与ONT测序及专用生物信息学工具相结合,使我们能够生成准确的OsHV-1基因组。AS方法可使病毒数据富集高达60%,ONT产生的长读长能够表征OsHV-1异构体。连同其便携性,这种测序作为一种直接从宿主组织中表征不可培养水生病毒的诊断工具显示出巨大潜力。

重要性

许多水生病毒威胁着具有商业价值的物种,并在疫情爆发期间造成重大经济损失。为了增进我们对这些病毒的起源、传播模式和扩散的了解,更多的基因组数据至关重要。然而,不可培养的大型DNA病毒的基因组表征是一项重大挑战。在本研究中,我们成功评估了ONT测序和适应性测序(AS)对完整OsHV-1基因组进行测序和组装的能力。我们的结果表明,现在有可能直接从受感染的宿主组织中对大型DNA病毒的全基因组进行测序,而无需事先进行病毒增殖或病毒富集的实验室前期步骤。

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