应用噬菌体检测食源性病原体。

Bacteriophage Pub Date : 2014-01-01 Epub Date: 2014-02-07 DOI:10.4161/bact.28137
Mathias Schmelcher, Martin J Loessner
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引用次数: 0

摘要

食品中的细菌污染给食品行业带来了挑战,也给消费者带来了高风险。尽管人们的意识在不断提高,卫生措施也在不断改进,但食源性病原体仍然威胁着公众健康,因此需要新的方法来检测这些微生物。噬菌体具有高度的靶细胞特异性、固有的信号放大特性、生产简便且成本低廉、坚固耐用,是诊断测定的理想工具。噬菌体溶解繁殖周期的每个阶段,从最初识别宿主细胞到最终溶解,都可以通过多种方式用于细菌检测。除了完整的噬菌体颗粒外,噬菌体衍生的亲和分子(如细胞壁结合域和受体结合蛋白)也可用于这一目的。本综述概述了现有的基于噬菌体的食源性病原体检测技术,并重点介绍了这一领域的最新进展,特别强调了基于噬菌体的生物传感器。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Application of bacteriophages for detection of foodborne pathogens.

Application of bacteriophages for detection of foodborne pathogens.

Application of bacteriophages for detection of foodborne pathogens.

Application of bacteriophages for detection of foodborne pathogens.

Bacterial contamination of food products presents a challenge for the food industry and poses a high risk for the consumer. Despite increasing awareness and improved hygiene measures, foodborne pathogens remain a threat for public health, and novel methods for detection of these organisms are needed. Bacteriophages represent ideal tools for diagnostic assays because of their high target cell specificity, inherent signal-amplifying properties, easy and inexpensive production, and robustness. Every stage of the phage lytic multiplication cycle, from the initial recognition of the host cell to the final lysis event, may be harnessed in several ways for the purpose of bacterial detection. Besides intact phage particles, phage-derived affinity molecules such as cell wall binding domains and receptor binding proteins can serve for this purpose. This review provides an overview of existing phage-based technologies for detection of foodborne pathogens, and highlights the most recent developments in this field, with particular emphasis on phage-based biosensors.

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