An SNP-based diagnostic method for Brucella S2 vaccine strain infections.

IF 2.9 2区农林科学 Q1 VETERINARY SCIENCES

Frontiers in Veterinary Science Pub Date : 2025-06-19 eCollection Date: 2025-01-01 DOI:10.3389/fvets.2025.1570220

Xingya Wang, Xiaowei Tian, Wanyang Li, Yuanchao Yang, Shuai Zhang, Hui Wang, Wanru Geng, Jingbo Zhai

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引用次数: 0

Abstract

Background: Brucellosis, a zoonotic bacterial infection caused by Brucella species, exhibits a global distribution. The Brucella S2 vaccine strain is known to cause brucellosis. Current serological antibody assays cannot distinguish between infections caused by the S2 strain and those caused by wild-type Brucella.

Objective: To develop a diagnostic method capable of specifically detecting S2 vaccine strain infections.

Methods: Two probes were designed targeting single nucleotide polymorphism (SNP) loci upstream of the sugar ABC gene; quantitative polymerase chain reaction (qPCR) and droplet digital polymerase chain reaction (ddPCR) methods were established. The performances of these methods were evaluated. The transient stem-loop structure of the DNA template was predicted, and the impact of probe overlap with the transient stem-loop structure on detection sensitivity was analyzed. Clinical applicability was assessed using 50 blood samples from brucellosis patients.

Results: Both types of methods demonstrated high specificity. However, MGB-SNPdd showed greater sensitivity than other detection methods. Reduction of overlap between the probe sequence and the transient stem-loop structure enhanced detection sensitivity. In the clinical applicability analysis, ddPCR methods exhibited higher rates of S2 vaccine strain detection compared with qPCR methods.

Conclusion: SNP-based ddPCR methods demonstrate higher sensitivity than qPCR methods and enable specific detection of brucellosis caused by the S2 vaccine strain. Reduction of probe overlap with the transient stem-loop structure improves detection sensitivity, providing valuable insights for enhanced PCR amplification efficiency.

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基于snp的布鲁氏菌S2疫苗株感染诊断方法研究。

背景：布鲁氏菌病是一种由布鲁氏菌引起的人畜共患细菌感染，具有全球分布。已知布鲁氏菌S2疫苗株可引起布鲁氏菌病。目前的血清学抗体测定不能区分S2菌株引起的感染和野生型布鲁氏菌引起的感染。目的：建立一种能够特异性检测S2疫苗株感染的诊断方法。方法：设计了两种针对糖ABC基因上游单核苷酸多态性（SNP）位点的探针；建立了定量聚合酶链反应（qPCR）和液滴数字聚合酶链反应（ddPCR）方法。对这些方法的性能进行了评价。预测了DNA模板的瞬态茎环结构，并分析了探针与瞬态茎环结构重叠对检测灵敏度的影响。使用50例布鲁氏菌病患者的血液样本评估临床适用性。结果：两种方法均具有较高的特异性。但MGB-SNPdd的灵敏度高于其他检测方法。减少探针序列和瞬态茎环结构之间的重叠，提高了检测灵敏度。在临床适用性分析中，ddPCR方法对S2疫苗株的检出率高于qPCR方法。结论：基于snp的ddPCR方法比qPCR方法灵敏度更高，能够特异性检测S2疫苗株引起的布鲁氏菌病。减少探针重叠与瞬态茎环结构提高了检测灵敏度，为提高PCR扩增效率提供了有价值的见解。

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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来源期刊

Frontiers in Veterinary Science Veterinary-General Veterinary

CiteScore

4.80

自引率

9.40%

发文量

1870

审稿时长

14 weeks

期刊介绍： Frontiers in Veterinary Science is a global, peer-reviewed, Open Access journal that bridges animal and human health, brings a comparative approach to medical and surgical challenges, and advances innovative biotechnology and therapy. Veterinary research today is interdisciplinary, collaborative, and socially relevant, transforming how we understand and investigate animal health and disease. Fundamental research in emerging infectious diseases, predictive genomics, stem cell therapy, and translational modelling is grounded within the integrative social context of public and environmental health, wildlife conservation, novel biomarkers, societal well-being, and cutting-edge clinical practice and specialization. Frontiers in Veterinary Science brings a 21st-century approach—networked, collaborative, and Open Access—to communicate this progress and innovation to both the specialist and to the wider audience of readers in the field. Frontiers in Veterinary Science publishes articles on outstanding discoveries across a wide spectrum of translational, foundational, and clinical research. The journal''s mission is to bring all relevant veterinary sciences together on a single platform with the goal of improving animal and human health.