适用于肉毒梭菌pcr检测及基因分型的DNA提取方法评价。

Bruna Auricchio, Fabrizio Anniballi, Alfonsina Fiore, Jeffrey E Skiby, Dario De Medici
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引用次数: 11

摘要

以pcr为基础的方法检测肉毒梭菌并进行基因分型,提取足够质量和数量的DNA至关重要。理想的提取方法必须优化DNA产率,最小化DNA降解,允许提取多个样品,并且在成本,时间,劳动力和供应方面效率高。采用11株产肉毒杆菌梭菌和25份天然被产肉毒杆菌污染的样品(10份食品、13份临床和2份环境样品),比较4种DNA提取方法:Chelex(®)100基质、苯酚-氯仿-异戊醇、NucliSENS(®)磁力提取试剂盒和DNeasy(®)Blood & Tissue试剂盒。评估可扩增DNA的完整性、纯度和数量。结果表明,DNeasy(®)血液和组织试剂盒是评估的最佳提取方法,因为它提供了最纯净、完整和可扩增的DNA。然而,Chelex(®)100基质似乎适用于基于PCR的方法,用于疑似肉毒中毒的实验室诊断,因为与DNeasy(®)Blood & Tissue试剂盒相比,Chelex(®)100基质更快、更便宜,并且对于获得的Ct值平均值与最佳方法有统计学差异(P>0.05)的样品,并不缺乏PCR扩增。此外,目前用于实验室诊断的分子方法是基于PCR之前的微生物富集步骤,因此扩增的差异似乎不会影响分析结果。
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Evaluation of DNA extraction methods suitable for PCR-based detection and genotyping of Clostridium botulinum.

Sufficient quality and quantity of extracted DNA is critical to detecting and performing genotyping of Clostridium botulinum by means of PCR-based methods. An ideal extraction method has to optimize DNA yield, minimize DNA degradation, allow multiple samples to be extracted, and be efficient in terms of cost, time, labor, and supplies. Eleven botulinum toxin-producing clostridia strains and 25 samples (10 food, 13 clinical, and 2 environmental samples) naturally contaminated with botulinum toxin-producing clostridia were used to compare 4 DNA extraction procedures: Chelex(®) 100 matrix, Phenol-Cloroform-Isoamyl alcohol, NucliSENS(®) magnetic extraction kit, and DNeasy(®) Blood & Tissue kit. Integrity, purity, and amount of amplifiable DNA were evaluated. The results show that the DNeasy(®) Blood & Tissue kit is the best extraction method evaluated because it provided the most pure, intact, and amplifiable DNA. However, Chelex(®) 100 matrix seems to be suitable for PCR-based methods intended for laboratory diagnosis of suspected outbreaks of botulism, because it is faster and cheaper compared to DNeasy(®) Blood & Tissue kit, and for samples in which the mean of Ct values obtained are statistically different (P>0.05) with respect to the best method, no lack of PCR amplification was shown. In addition, molecular methods for laboratory diagnosis currently are based on a microbial enrichment step prior to PCR, and so the differences in amplification seem to not influence the analytical results.

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