应用多基因座实时聚合酶链式反应检测猪布鲁氏菌生物变异株方法的建立

Q3 Medicine

Problemy Osobo Opasnykh Infektsii Pub Date : 2022-07-13 DOI:10.21055/0370-1069-2022-2-107-114

N. A. Osina, D. A. Sitmbetov, I. V. Domanina, O. Y. Lyashova, S. A. Shcherbakova, I. A. Kas’yan, Zh. A. Kas’yan, E. G. Bulgakova

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引用次数: 0

摘要

本研究的目的是建立一种通过实时记录结果的多位点PCR检测猪布鲁氏菌生物变体的方法学方法。材料和方法。我们选用不同生物变种的猪螺旋体16株，瘤螺旋体和犬螺旋体各2株。根据Bruce-ladder、swiss -ladder、BRU-DIF协议确定布鲁氏菌菌株的分类关系。引物和探针的选择使用网站www.genscript.com上的软件和GeneRanner 6.5.52程序。按照制造商的建议，在3500 XL基因分析仪上进行Sanger片段测序。使用BLAST算法和GenBank NCBI数据库评估核苷酸序列同源性。结果和讨论。对猪乙杆菌不同生物变种的IncP和GI-3基因组岛的结构组织进行了分析。在猪B. II型、IV型和犬B.中，由于IncP基因组岛的同源重组，包含21个核苷酸(在BRA0367基因中重复)和“TAA”终止密码子的BRA0368基因末端部分以及BRA0367基因的几乎整个序列丢失。BRA0367基因的21个核苷酸直接重复和“TGA”终止密码子取代了BRA0368基因的类似区域，导致185bp大小的缺失。生物变体中GI-3的结构未见差异。根据获得的证据，利用实时PCR技术扩增位于IncP和GI-3基因组岛的基因，可以开发出区分猪乙型流感生物变体的方法(SuisDIF)。其特异性在俄罗斯抗鼠疫研究所“微生物”国家病原菌收集基金的猪B.菌株研究中得到证实。所进行的研究扩展和补充了关于布鲁氏菌物种和生物变体遗传异质性的数据。该方法采用多位点PCR技术进行猪螺旋体生物变异的实时登记，提高了布鲁氏菌分子遗传鉴定的能力。

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Development of a Method for Determination of brucella suis Biovars Using Multilocus Real-time PCR

The aim of the study was to develop a methodological approach to determination of Brucella suis biovars through multilocus PCR with real-time registration of results.Materials and methods. We used 16 strains of B. suis of various biovars, B. neotomae and B. canis – 2 strains of each. Determination of the taxonomic affiliation of Brucella strains was carried out according to the Bruce-ladder, Suis-ladder, BRU-DIF protocols. The selection of primers and probes was performed using the software on the website www.genscript.com and the GeneRanner 6.5.52 program. Fragment sequencing according to Sanger was performed on a 3500 XL genetic analyzer in accordance with the manufacturer’s recommendations. Nucleotide sequence homology was assessed using the BLAST algorithm and the GenBank NCBI database.Results and discussion. An analysis of the structural organization of IncP and GI-3 genomic islands has been carried out in B. suis strains of various biovars. It has been established that in strains of B. suis II, IV biovars and B. canis, the terminal part of the BRA0368 gene, comprising 21 nucleotides (repeated in the BRA0367 gene) and the “TAA” stop codon, as well as almost the entire sequence of the BRA0367 gene were lost, owing to homologous recombination in the IncP genome island. A 21-nucleotide direct repeat and the “TGA” stop codon of the BRA0367 gene replaced the analogous region of the BRA0368 gene which resulted in the deletion the size of 185 bp. No differences have been noted in the structure of GI-3 in biovars. The evidence obtained made it possible to develop the approach (SuisDIF) for differentiating B. suis biovars, based on the amplification of genes located in the IncP and GI-3 genomic islands using real-time PCR. Its specificity was confirmed in the study of B. suis strains from the fund of the State Collection of Pathogenic Bacteria of the Russian Research Anti-Plague Institute “Microbe”. The conducted studies expand and supplement the data on the genetic heterogeneity of Brucella species and biovars. The proposed method for differentiating biovars of B. suis using multilocus PCR with real-time registration of results enhances the capacities for Brucella identification using molecular-genetic methods.

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来源期刊

Problemy Osobo Opasnykh Infektsii Medicine-Infectious Diseases

CiteScore

1.90

自引率

0.00%

发文量

审稿时长

12 weeks