Real-time PCR and high-resolution melt analysis methods for detection of pathogenic species of Brucella

IF 0.1 Q4 OTORHINOLARYNGOLOGY

Laboratoriumsmedizin-Journal of Laboratory Medicine Pub Date : 2017-12-20 DOI:10.1515/labmed-2017-0030

F. Masjedian Jazi, R. Mirnejad, Vahhab Piranfar, Noor Amir Mozafari, T. Zahraei Salehi, M. Khormali, M. Sedighi, G. Irajian

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引用次数: 7

Abstract

Abstract Background: It is of great importance to quickly and accurately detect Brucella abortus and Brucella melitensis from clinical and non-clinical samples because of their high prevalence and high risk in causing brucellosis, a life-threating infectious disease affecting both humans and animals. Methods: The current study describes a new method for the detection of brucellosis in clinical samples using real-time polymerase chain reaction (PCR) and high-resolution melt (HRM) curve analysis. This study was conducted on 70 human and 55 animal isolates with more than 1/80 serum antibody titers. Additionally, the accuracy and specificity of the methods were compared. Results: The mean range [cycles threshold±standard deviation (CT±SD)] for the amplified samples was 15.39–25.15 by real-time PCR. The melting peak range (°C) ±SD for B. abortus and B. melitensis was 90.10±0.4 and 89.70±0.4, respectively, and 10 was reported on peak height. Conclusions: The results of HRM analysis can be used for species differentiation and bacterial genotyping according to nucleotide polymorphism. This molecular method could help in diagnosing Brucella quickly and precisely. Quick recognition of Brucella species could decrease its prevalence among humans and animals and mitigate economic loss.

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实时荧光定量PCR和高分辨率熔体分析方法检测布鲁氏菌致病性菌种

摘要背景:由于流产布鲁氏菌和melitensis布鲁氏菌在临床和非临床样品中的高流行率和高风险，导致布鲁氏菌病(一种危害人类和动物生命的传染病)的快速准确检测具有重要意义。方法:本研究描述了一种实时聚合酶链反应(PCR)和高分辨率熔融(HRM)曲线分析检测临床样品布鲁氏菌病的新方法。本研究对血清抗体滴度超过1/80的70株人和55株动物分离株进行了研究。此外，比较了两种方法的准确性和特异性。结果:real-time PCR扩增样品的平均范围[周期阈值±标准差(CT±SD)]为15.39 ~ 25.15。abortus和B. melitensis的熔化峰范围(°C)±SD分别为90.10±0.4和89.70±0.4，峰高为10。结论:HRM分析结果可用于物种分化和细菌核苷酸多态性基因分型。这种分子方法有助于快速准确地诊断布鲁氏菌。迅速识别布鲁氏菌可以减少其在人类和动物中的流行并减轻经济损失。

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