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Real-time PCR Biochip for On-Site Detection of Coxiella Burnetii in Ticks
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Abstract
Background: Q fever, a zoonosis caused by Coxiella burnetii, has adverse effects on public health. Ticks are the natural reservoirs of C. burnetii and they contribute to the transmission of the pathogen. A tool for rapid, sensitive, and accurate detection of C. burnetii from ticks is important for the prevention of Q fever. Methods: Ultra-rapid real-time PCR (UR-qPCR) as a chip-based real-time PCR system was developed for the detection of C. burnetii from ticks. The UR-qPCR system was established and evaluated for the rapidity, sensitivity, and specificity of C. burnetii detection. Results: C. burnetii was detected using UR-qPCR from 5,644 larval, nymphal, and adult ticks from 408 pools collected from livestock and epidemiologically linked environments in two provinces, Gangwon and Jeju, in Korea. Ticks from three species were identified; Haemaphysalis longicornis accounted for the highest number, present in 333 of 408 pools (81.62%), followed by Haemaphysalis flava in 62 pools (15.19%) and Ixodes nipponensis in 13 pools (3.19%). The rapidity and sensitivity of PCR detection was demonstrated with the sufficient amplification and detection of approximately 56 copies of C. burnetii DNA with only 20 min of PCR amplification. The kappa value for the diagnostic agreement between UR-qPCR and stationary qPCR was in perfect agreement (p = 1). PCR detection and sequencing indicated that C. burnetii was present in 5 of the 408 pools (1.23%), in which four pools contained H. longicornis and one pool contained H. flava. The infection rates of C. burnetii in the tick pools collected from Gangwon and Jeju Provinces were 1.70% and 0.58%, respectively. Phylogenetic analysis indicated a close relationship between the detected C. burnetii and those originated from goats, humans, and ticks in different countries, such as USA, France, Germany, and Serbia. Conclusions: The results of this study could be important for the prevention and control of Q fever in the two provinces. The UR-qPCR with its features of mobility, sensitivity, and rapidity is helpful for constructing early alert systems in the field for C. burnetii in ticks and for alleviating the transmission and economic damage due to Q fever.
Springer Science and Business Media LLC
Title: Real-time PCR Biochip for On-Site Detection of Coxiella Burnetii in Ticks
Description:
Abstract
Background: Q fever, a zoonosis caused by Coxiella burnetii, has adverse effects on public health.
Ticks are the natural reservoirs of C.
burnetii and they contribute to the transmission of the pathogen.
A tool for rapid, sensitive, and accurate detection of C.
burnetii from ticks is important for the prevention of Q fever.
Methods: Ultra-rapid real-time PCR (UR-qPCR) as a chip-based real-time PCR system was developed for the detection of C.
burnetii from ticks.
The UR-qPCR system was established and evaluated for the rapidity, sensitivity, and specificity of C.
burnetii detection.
Results: C.
burnetii was detected using UR-qPCR from 5,644 larval, nymphal, and adult ticks from 408 pools collected from livestock and epidemiologically linked environments in two provinces, Gangwon and Jeju, in Korea.
Ticks from three species were identified; Haemaphysalis longicornis accounted for the highest number, present in 333 of 408 pools (81.
62%), followed by Haemaphysalis flava in 62 pools (15.
19%) and Ixodes nipponensis in 13 pools (3.
19%).
The rapidity and sensitivity of PCR detection was demonstrated with the sufficient amplification and detection of approximately 56 copies of C.
burnetii DNA with only 20 min of PCR amplification.
The kappa value for the diagnostic agreement between UR-qPCR and stationary qPCR was in perfect agreement (p = 1).
PCR detection and sequencing indicated that C.
burnetii was present in 5 of the 408 pools (1.
23%), in which four pools contained H.
longicornis and one pool contained H.
flava.
The infection rates of C.
burnetii in the tick pools collected from Gangwon and Jeju Provinces were 1.
70% and 0.
58%, respectively.
Phylogenetic analysis indicated a close relationship between the detected C.
burnetii and those originated from goats, humans, and ticks in different countries, such as USA, France, Germany, and Serbia.
Conclusions: The results of this study could be important for the prevention and control of Q fever in the two provinces.
The UR-qPCR with its features of mobility, sensitivity, and rapidity is helpful for constructing early alert systems in the field for C.
burnetii in ticks and for alleviating the transmission and economic damage due to Q fever.
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