Thamyris Sampaio Vilela, Nathália Alves Senne, Patrícia Gonzaga Paulino, Thamires Rezende Araújo, Pamella Pryscila de Alvarenga Bissoli Maciel de Lima, Natalia Pedra Gonçalves, Daniel da Silva Guedes-Junior, Isabele da Costa Angelo, Carlos Luiz Massard, Maristela Peckle Peixoto, Huarrisson Azevedo Santos
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This investigation involved the development of two multiplex qPCR-HRM: assay 1 detects human, dog and chicken, while assay 2 detects cat, cattle and horse in Culex sp. engorged female mosquitoes. The qPCR-HRM reactions showed a detection limit of one copy of genomic DNA when performed as single and multiplex qPCR-HRM. The reaction efficiencies were 97.96% for human, 100.60% for dog, 99.03% for chicken, 99.92% for feline, 99.18% for cattle and 97.68% for horse. The qPCR-HRM method, employing multiplex 1 and 2, was applied to field-collected mosquitoes and demonstrated the ability to detect DNA from multiple blood sources within a single sample. By analysing both multiplexes, it was possible to identify up to five distinct blood sources in Cx. quinquefasciatus and Cx. nigripalpus, and up to two sources in Culex coronatus. Sequencing corroborated the qPCR-HRM results, confirming the presence of DNA from one to four different blood sources with 100% accuracy. 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引用次数: 0
摘要
库蚊物种,如五带喙库蚊和黑带喙库蚊,有各种取食习性,是可导致人类和动物疾病的病原体的传播媒介。了解它们的取食习性对于加强疾病预防策略至关重要。本研究介绍了两种多重实时 PCR(qPCR)和高分辨率熔融(HRM)的应用,这是一种具有成本效益和时间效率的替代方法。这项调查涉及开发两种多重 qPCR-HRM:检测 1 检测人、狗和鸡,检测 2 检测库蚊吞食雌蚊中的猫、牛和马。qPCR-HRM 反应在进行单倍和多倍 qPCR-HRM 时,基因组 DNA 的检测限均为一个拷贝。反应效率分别为:人 97.96%、狗 100.60%、鸡 99.03%、猫 99.92%、牛 99.18%、马 97.68%。qPCR-HRM 方法采用了多重酶 1 和 2,适用于野外采集的蚊子,证明了在单一样本中检测多种血液来源 DNA 的能力。通过分析这两种多重因子,可以确定五步蛇和黑线蝇最多有五个不同的血液来源,冠状库蚊最多有两个来源。测序证实了 qPCR-HRM 的结果,以 100% 的准确率确认了一到四个不同血源中 DNA 的存在。这些分子方法的开发可能有助于确定蚊子的吸血模式。它有助于研究病原体在各种动物和人类之间的传播和传染,从而缩小流行病学和病媒监测之间的差距。
A multiplex qPCR followed by high-resolution melting analysis for the detection of blood-feeding sources in Culex sp. mosquitoes.
Culex species, such as Culex quinquefasciatus and Culex nigripalpus display a range of feeding habits and act as vectors for pathogens that can cause diseases in both humans and animals. Understanding their feeding habits is pivotal for enhancing disease prevention strategies. The present study introduces the application of two multiplex real-time PCR (qPCR) followed by high-resolution melting (HRM) as a cost-effective and time-efficient alternative. This investigation involved the development of two multiplex qPCR-HRM: assay 1 detects human, dog and chicken, while assay 2 detects cat, cattle and horse in Culex sp. engorged female mosquitoes. The qPCR-HRM reactions showed a detection limit of one copy of genomic DNA when performed as single and multiplex qPCR-HRM. The reaction efficiencies were 97.96% for human, 100.60% for dog, 99.03% for chicken, 99.92% for feline, 99.18% for cattle and 97.68% for horse. The qPCR-HRM method, employing multiplex 1 and 2, was applied to field-collected mosquitoes and demonstrated the ability to detect DNA from multiple blood sources within a single sample. By analysing both multiplexes, it was possible to identify up to five distinct blood sources in Cx. quinquefasciatus and Cx. nigripalpus, and up to two sources in Culex coronatus. Sequencing corroborated the qPCR-HRM results, confirming the presence of DNA from one to four different blood sources with 100% accuracy. The development of these molecular methods may contribute for identification of blood-feeding patterns in mosquitoes. It contributes to studies on the dissemination and transmission of pathogens among various animals and humans, thereby bridging the gap between epidemiology and vector monitoring.
期刊介绍:
Medical and Veterinary Entomology is the leading periodical in its field. The Journal covers the biology and control of insects, ticks, mites and other arthropods of medical and veterinary importance. The main strengths of the Journal lie in the fields of:
-epidemiology and transmission of vector-borne pathogens
changes in vector distribution that have impact on the pathogen transmission-
arthropod behaviour and ecology-
novel, field evaluated, approaches to biological and chemical control methods-
host arthropod interactions.
Please note that we do not consider submissions in forensic entomology.