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A review on phage-based technologies for highly sensitive luminescent detection of foodborne pathogens and microbial toxins

Foodborne pathogens and microbial toxins are the main causes of foodborne illness. However, trace pathogens and toxins in foods are difficult to detect. Thus, techniques for their rapid and sensitive identification and quantification are urgently needed. Phages can specifically recognize and adhere to certain species of microbes or toxins due to molecular complementation between capsid proteins of phages and receptors on the host cell wall or toxins, and thus they have been successfully developed into a detection platform for pathogens and toxins. This review presents an update on phage-based luminescent detection technologies as well as their working principles

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04 March, 2022

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Foodborne pathogens and microbial toxins are the main causes of foodborne illness. However, trace pathogens and toxins in foods are difficult to detect. Thus, techniques for their rapid and sensitive identification and quantification are urgently needed. Phages can specifically recognize and adhere to certain species of microbes or toxins due to molecular complementation between capsid proteins of phages and receptors on the host cell wall or toxins, and thus they have been successfully developed into a detection platform for pathogens and toxins. This review presents an update on phage-based luminescent detection technologies as well as their working principles and characteristics. Based on phage display techniques of temperate phages, reporter gene detection assays have been designed to sensitively detect trace pathogens by luminous intensity. By the host-specific lytic effects of virulent phages, enzyme-catalyzed chemiluminescent detection technologies for pathogens have been exploited. Notably, these phage-based luminescent detection technologies can discriminate viable versus dead microbes. Further, highly selective and sensitive immune-based assays have been developed to detect trace toxins qualitatively and quantitatively via antibody analogs displayed by phages, such as phage-ELISA (enzyme-linked immunosorbent assay) and phage-IPCR (immuno-polymerase chain reaction). This literature research may lead to novel and innocuous phage-based rapid detection technologies to ensure food safety. ? SourcesPhage-based technologies for highly sensitive luminescent detection of foodborne pathogens and microbial toxins: A reviewJianming Ye,Jiaqing Guo,Tairan Li,Jiaxin Tian,Mengxi Yu,Xiaochen Wang,Usman Majeed,Wei Song,Jianbo Xiao,Yane Luo,Tianli YueComprehensive Reviews in Food Science and Food Safetyhttps://ift.onlinelibrary.wiley.com/doi/10.1111/1541-4337.12908?af=R&utm_medium=email&utm_source=rasa_io Picture, Virus bacteri?fagos: la t?cnica del pasado que promete ser una alternativa ante la resistencia a los antibi?ticoshttps://www.bbc.com/mundo/noticias-39961433
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