单管多重巢式PCR系统高效检测SPF级啮齿动物病原微生物。

IF 1.2 3区 农林科学 Q3 VETERINARY SCIENCES
Wang Jie Xu, Ya Jun Pan, Wei Jie Li, Li Na Peng, Dong Li Liang, Man Zhang, Wei Ding, Zhao Xia Wang
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引用次数: 1

摘要

PCR检测在SPF设施微生物控制中越来越重要。然而,目前大多数PCR方法都是耗时的,需要在高灵敏度和高复用之间做出妥协。我们开发了一种单管多重巢式PCR策略(MN-PCR),用于同时直接(即无需培养)检测多种病原体。我们首先对选定的目标细菌和一组密切相关的生物体的16S rDNA基因序列进行了比对。根据这些数据,我们设计了一对通用引物和多套物种特异性PCR引物来扩增目标序列;对通用引物进行修饰,使其包含各种简并碱基和锁定核酸。在MN-PCR程序的第一阶段,当目标物种特异性PCR引物因其长度较短而不支持扩增时,在单管中使用巢式PCR引物在高温(即65°C以上)下扩增16S rDNA序列。此外,在第一阶段调整巢式PCR引物的浓度,以确保它们被消耗,并且不会产生可见条带。在第二阶段,富集的16S rDNA序列作为模板,在低退火温度(即低于60℃)下使用多个PCR引物扩增物种特异性片段。结果表明,在20 μ l的反应体积下,我们的MN-PCR方法只检测到1 fg的目标细菌DNA,而传统的多重PCR方法只检测到1 pg。与传统的多重PCR分析相比,我们的MN-PCR系统是一种有效的无培养过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Single-tube Multiplex Nested PCR System for Efficient Detection of Pathogenic Microorganisms in SPF Rodents.

PCR testing is increasingly important for microbial control in SPF facilities. However, most current PCR methods are timeconsuming and require compromise between high sensitivity and high multiplexing. We developed a one-tube multiplex nested PCR strategy (MN-PCR) for simultaneous direct (that is, without culturing) detection of multiple pathogens. We first aligned sequences for the 16S rDNA genes of selected target bacteria and a panel of closely related organisms. From these data, we designed a pair of universal primers and multiple sets of species-specific PCR primers to amplify the target sequences; the universal primers were modified to include various degenerate bases and locked nucleic acids. In a single tube, 16S rDNA sequences were amplified by using the nested PCR primers under high temperature (that is, above 65°C) during the first stage of the MN-PCR procedure, when the target-species-specific PCR primers do not support amplification due to their short length. In addition, the concentration of the nested PCR primers during the first stage was adjusted to ensure that they were consumed and did not yield visible bands themselves. During the second stage, the enriched 16S rDNA sequences then served as templates for amplification of the species-specific fragments by using the multiple PCR primers at low annealing temperatures (that is, below 60°C). The results showed that our MN-PCR method detected as little as 1 fg of target bacterial DNA in a 20-μL reaction volume, whereas conventional multiplex PCR detected a minimum of 1 pg only. Compared with traditional multiplex PCR assays, our MN-PCR system is an effective and efficient culture-free process.

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来源期刊
CiteScore
3.10
自引率
35.30%
发文量
122
审稿时长
6-12 weeks
期刊介绍: The Journal of the American Association for Laboratory Animal Science (JAALAS) serves as an official communication vehicle for the American Association for Laboratory Animal Science (AALAS). The journal includes a section of refereed articles and a section of AALAS association news. All signed articles, including refereed articles and book reviews, editorials, committee reports, and news and commentary, reflect the individual views of the authors and are not official views of AALAS. The mission of the refereed section of the journal is to disseminate high-quality, peer-reviewed information on animal biology, technology, facility operations, management, and compliance as relevant to the AALAS membership. JAALAS accepts research reports (data-based) or scholarly reports (literature-based), with the caveat that all articles, including solicited manuscripts, must include appropriate references and must undergo peer review.
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