Establishment and application of a quantitative real-time PCR detection system for Brucella S2 vaccine strain
10.3760/cma.j.cn231583-20220331-00102
- VernacularTitle:布鲁氏菌S2疫苗株实时荧光定量PCR检测体系的建立及应用
- Author:
Guozhong TIAN
1
;
Bo LIU
;
Yuanyuan GUO
;
Liqin SU
;
Bike ZHANG
Author Information
1. 中国疾病预防控制中心传染病预防控制所,北京 102206
- Keywords:
Brucella;
S2 vaccine strain;
Quantitative real-time PCR
- From:
Chinese Journal of Endemiology
2023;42(4):328-331
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To establish a quantitative real-time PCR detection system for Brucella S2 vaccine strain. Methods:Based on the differences in the entire genome sequence between Brucella S2 vaccine strain and other reference strains of Brucella, primers and probes were designed to establish a quantitative real-time PCR detection system for Brucella S2 vaccine strain. The DNA of 22 reference strains of Brucella and 8 non- Brucella control strains were obtained from the National Institute for Infectious Disease Control and Prevention of the Chinese Center for Disease Control and Prevention. At the same time, environmental samples were obtained from the brucellosis vaccine manufacturers, and bacterial DNA from environmental samples was extracted using a blood/tissue genomic DNA extraction kit. The obtained DNA was pre-amplified by conventional PCR, and then subjected to quantitative real-time PCR secondary amplification (nested fluorescence quantitative PCR) using the amplified PCR product as a template. The specific fluorescence curve and corresponding number of cycles (Ct value) were observed, and the sensitivity was tested. Results:The quantitative real-time PCR detection system established did not detect specific fluorescence curves (without Ct values) for 21 reference strains of Brucella and 8 non- Brucella control strains, except for S2 vaccine strains. The established detection system had a minimum detection limit of 4.34 fg (genomic DNA) for detecting the DNA of Brucella S2 vaccine strain; DNA of Brucella S2 vaccine strain was detected in 3 of the 14 environmental samples collected. Conclusion:The quantitative real-time PCR detection system established can detect Brucella S2 vaccine strain in samples, with good sensitivity and specificity.
