RPA- lfd和基于荧光探针的RPA快速灵敏检测黑斑蛙致病性伊丽莎白金花

Meihua Qiao , Liqiang Zhang , Jiao Chang , Haoxuan Li , Jingkang Li , Weicheng Wang , Gailing Yuan , Jianguo Su
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引用次数: 2

摘要

miricola是一种传染性极强的病原菌,在蛙类养殖中具有很高的致死率。因此,开发一种快速灵敏的检测方法迫在眉睫。本研究建立了两种快速、特异的检测方法,分别是重组酶聚合酶结合侧流尺扩增法(RPA- lfd)和荧光探针重组酶扩增法(exo RPA),可在38°C条件下30 min内完成检测,RPA- lfd和exo RPA的极限灵敏度(102拷贝/μL)是普通PCR检测方法的10倍。通过检测多种DNA样本(微孢子菌、金黄色葡萄球菌、嗜水气单胞菌、维罗氏气单胞菌、CyHV-2和爱德华氏菌),验证了两种方法的特异性,结果表明单条带仅在微孢子菌DNA中显示。通过组织细菌负荷和qRT-PCR检测,脑组织是最敏感的组织。采用通用PCR、基本RPA、RPA- lfd和exo RPA方法对24份养殖场黑斑蛙脑标本进行检测,结果表明,RPA- lfd和exo RPA方法能够准确、快速地检测出微小大肠杆菌。综上所述,RPA- lfd和exo RPA检测方法简便、快速、准确、灵敏。本研究为检测青蛙培养物中微分枝杆菌感染提供了前瞻性的方法。
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Rapid and sensitive detection of pathogenic Elizabethkingia miricola in black spotted frog by RPA-LFD and fluorescent probe-based RPA

Elizabethkingia miricola is a highly infectious pathogen, which causes high mortality rate in frog farming. Therefore, it is urgent to develop a rapid and sensitive detection method. In this study, two rapid and specific methods including recombinase polymerase amplification combined with lateral flow dipstick (RPA-LFD) and fluorescent probe-based recombinase polymerase amplification (exo RPA) were established to effectively detect E. miricola, which can accomplish the examination at 38 °C within 30 min. The limiting sensitivity of RPA-LFD and exo RPA (102 copies/μL) was ten-fold higher than that in generic PCR assay. The specificities of the two methods were verified by detecting multiple DNA samples (E. miricola, Staphylococcus aureus, Aeromonas hydrophila, Aeromonas veronii, CyHV-2 and Edwardsiella ictaluri), and the result showed that the single band was displayed in E. miricola DNA only. By tissue bacterial load and qRT-PCR assays, brain is the most sensitive tissue. Random 24 black spotted frog brain samples from farms were tested by generic PCR, basic RPA, RPA-LFD and exo RPA assays, and the results showed that RPA-LFD and exo RPA methods were able to detect E. miricola accurately and rapidly. In summary, the methods of RPA-LFD and exo RPA were able to detect E. miricola conveniently, rapidly, accurately and sensitively. This study provides prospective methods to detect E. miricola infection in frog culture.

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