Whole genome sequencing of hepatitis B virus (HBV) using tiled amplicon (HEP-TILE) and probe-based enrichment on Illumina and Nanopore platforms.

medRxiv - Infectious Diseases Pub Date : 2024-09-13 DOI:10.1101/2024.09.11.24313306

Sheila F Lumley, Chris Kent, Daisy Jennings, Haiting Chai, George Airey, Elizabeth Waddilove, Maion Delphin, Amy Trebes, Anna McNaughton, Khadija Said Mohammed, Sam Wilkinson, Yanxia Wu, George MacIntyre-Cockett, Beatrice Kimono, Moses Kwizera, Kevin Ojambo, Tongai Maponga, Catherine de Lara, Jacqueline Martin, James Campbell, Marije Van Schalkwyk, Dominique Goedhals, Robert Newton, Eleanor Barnes, Nicholas J Loman, Paolo Piazza, Joshua Quick, M Azim Ansari, Philippa C Matthews

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Abstract

Hepatitis B virus (HBV) whole genome sequencing (WGS) is currently limited as the DNA viral loads (VL) of many clinical samples are below the threshold required to generate full genomes using current sequencing methods. We developed two pan-genotypic viral enrichment methods, using probe-based capture and tiled amplicon PCR (HEP-TILE) for HBV WGS. We demonstrate using mock samples that both enrichment methods are pan-genotypic (genotypes A-J). Using clinical samples, we demonstrate that HEP-TILE amplification successfully amplifies full genomes at the lowest HBV VL tested (30 IU/ml), and the PCR products can be sequenced using both Nanopore and Illumina platforms. Probe-based capture with Illumina sequencing required VL >300,000 IU/ml to generate full length HBV genomes. The capture-Illumina and HEP-TILE-Nanopore pipelines had consensus sequencing accuracy of 100% in mock samples with known DNA sequences. Together, these protocols will facilitate the generation of HBV sequence data, enabling a more accurate and representative picture of HBV molecular epidemiology, cast light on persistence and pathogenesis, and enhance understanding of the outcomes of infection and its treatment.

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在 Illumina 和 Nanopore 平台上使用成串扩增子（HEP-TILE）和探针富集技术对乙型肝炎病毒（HBV）进行全基因组测序。

乙型肝炎病毒（HBV）全基因组测序（WGS）目前受到限制，因为许多临床样本的 DNA 病毒载量（VL）低于使用当前测序方法生成全基因组所需的阈值。我们为 HBV WGS 开发了两种泛基因型病毒富集方法，分别使用基于探针的捕获和平铺扩增子 PCR (HEP-TILE)。我们使用模拟样本证明了这两种富集方法都是泛基因型的（基因型 A-J）。我们使用临床样本证明，HEP-TILE 扩增能在测试的最低 HBV VL（30 IU/ml）条件下成功扩增出全基因组，而且 PCR 产物可使用 Nanopore 和 Illumina 平台进行测序。基于探针的捕获与 Illumina 测序需要 VL >300,000 IU/ml 才能产生全长 HBV 基因组。在已知DNA序列的模拟样本中，捕获-Illumina和HEP-TILE-Nanopore管道的一致测序准确率为100%。这些方案将共同促进 HBV 序列数据的生成，从而更准确、更有代表性地反映 HBV 分子流行病学，揭示持续存在和发病机制，并加深对感染及其治疗结果的理解。

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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medRxiv - Infectious Diseases

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