Rapid detection of human adenovirus subgroup B using recombinase polymerase amplification assay.

IF 1.9 4区医学 Q3 GENETICS & HEREDITY

Virus Genes Pub Date : 2024-02-01 Epub Date: 2024-01-04 DOI:10.1007/s11262-023-02044-5

Yongzhe Zhu, Binghui Xia, Haizhou Xu, Zengxin Liu, Ru Wang, Qingqing Cai, Ping Zhao, Zhongtian Qi

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Abstract

Human adenovirus subgroup B (HAdV B) is one of the major pathogens of human respiratory virus infections, which has considerable transmission and morbidity in a variety of populations. Therefore, rapid and specific detection of HAdV B in clinical samples is essential for diagnosis. This study aimed to develop a product for rapid nucleic acid detection of HAdV B using recombinase polymerase amplification assay (RPA) and validate the performance of this method by using clinical samples. Results showed that this method achieved a lower limit of detection (LOD) of 10 copies/μL and had no cross-reactivity with other adenovirus subgroups or respiratory pathogens. In addition to high sensitivity, it can be completed within 30 min at 40 °C. There is no need to perform nucleic acid extraction on clinical samples. Taking qPCR as the gold standard, the RPA assay possessed a high concordance (Cohen's kappa, 0.896; 95% CI 0.808-0.984; P < 0.001), with a sensitivity of 87.80% and a specificity of 100.00%. The RPA assay developed in this study provided a simple and highly specific method, making it an important tool for rapid adenovirus nucleic acid detection and facilitating large-scale population screening in resource-limited settings.

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利用重组酶聚合酶扩增试验快速检测人类腺病毒 B 亚群。

人类腺病毒 B 亚群（HAdV B）是人类呼吸道病毒感染的主要病原体之一，在不同人群中传播广泛，发病率高。因此，快速、特异地检测临床样本中的 HAdV B 对诊断至关重要。本研究旨在开发一种利用重组酶聚合酶扩增法（RPA）快速检测 HAdV B 核酸的产品，并利用临床样本验证该方法的性能。结果表明，该方法的检测下限（LOD）为10拷贝/μL，且与其他腺病毒亚群或呼吸道病原体无交叉反应。除了灵敏度高之外，该方法还可在 40 °C 下 30 分钟内完成。无需对临床样本进行核酸提取。以 qPCR 作为金标准，RPA 检测具有很高的一致性（Cohen's kappa, 0.896; 95% CI 0.808-0.984; P

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来源期刊

Virus Genes 医学-病毒学

CiteScore

3.30

自引率

0.00%

发文量

审稿时长

3 months

期刊介绍： Viruses are convenient models for the elucidation of life processes. The study of viruses is again on the cutting edge of biological sciences: systems biology, genomics, proteomics, metagenomics, using the newest most powerful tools. Huge amounts of new details on virus interactions with the cell, other pathogens and the hosts – animal (including human), insect, fungal, plant, bacterial, and archaeal - and their role in infection and disease are forthcoming in perplexing details requiring analysis and comments. Virus Genes is dedicated to the publication of studies on the structure and function of viruses and their genes, the molecular and systems interactions with the host and all applications derived thereof, providing a forum for the analysis of data and discussion of its implications, and the development of new hypotheses.