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Abstract
Numerous novel methods to detect foodborne pathogens have been extensively developed to ensure food safety. Among the important foodborne bacteria, Bacillus cereus was identified as a pathogen of concern that causes various food illnesses, leading to interest in developing effective detection methods for this pathogen. Although a standard method based on culturing and biochemical confirmative test is available, it is time- and labor-intensive. Alternative PCR-based methods have been developed but lack high-throughput capacity and ease of use. This study, therefore, attempts to develop a robust method for B. cereus detection by leveraging the highly specific pyrrolidinyl peptide nucleic acids (PNAs) as probes for a bead array method with multiplex and high-throughput capacity. In this study, PNAs bearing prolyl-2-aminocyclopentanecarboxylic acid (ACPC) backbone with groEL, motB, and 16S rRNA sequences were covalently coupled with three sets of fluorescently barcoded beads to detect the three B. cereus genes. The developed acpcPNA-based bead array exhibited good selectivity where only signals were detectable in the presence of B. cereus, but not for other species. The sensitivity of this acpcPNA-based bead assay in detecting genomic DNA was found to be 0.038, 0.183 and 0.179 ng for groEL, motB and 16S rRNA, respectively. This performance was clearly superior to its DNA counterpart, hence confirming much stronger binding strength of acpcPNA over DNA. The robustness of the developed method was further demonstrated by testing artificially spiked milk and pickled mustard greens with minimal interference from food metrices. Hence, this proof-of-concept acpcPNA-based bead array method has been proven to serve as an effective alternative nucleic acid-based method for foodborne pathogens.
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Details
1 National Science and Technology Development Agency (NSTDA), National Center for Genetic Engineering and Biotechnology (BIOTEC), Pathum Thani, Thailand (GRID:grid.425537.2) (ISNI:0000 0001 2191 4408); Chulalongkorn University, Department of Chemistry, Faculty of Science, Pathumwan, Thailand (GRID:grid.7922.e) (ISNI:0000 0001 0244 7875); Faculty of Science, Chulalongkorn University, Program in Biotechnology, Bangkok, Thailand (GRID:grid.7922.e) (ISNI:0000 0001 0244 7875)
2 National Science and Technology Development Agency (NSTDA), National Center for Genetic Engineering and Biotechnology (BIOTEC), Pathum Thani, Thailand (GRID:grid.425537.2) (ISNI:0000 0001 2191 4408)
3 Chulalongkorn University, Department of Microbiology, Faculty of Science, Pathumwan, Thailand (GRID:grid.7922.e) (ISNI:0000 0001 0244 7875)
4 Chulalongkorn University, Department of Chemistry, Faculty of Science, Pathumwan, Thailand (GRID:grid.7922.e) (ISNI:0000 0001 0244 7875); Chulalongkorn University, Organic Synthesis Research Unit, Department of Chemistry, Faculty of Science, Pathumwan, Thailand (GRID:grid.7922.e) (ISNI:0000 0001 0244 7875)
5 Chulalongkorn University, Department of Chemistry, Faculty of Science, Pathumwan, Thailand (GRID:grid.7922.e) (ISNI:0000 0001 0244 7875); International Joint Research Center on Food Security, Khlong Luang, Thailand (GRID:grid.7922.e)
6 National Science and Technology Development Agency (NSTDA), National Center for Genetic Engineering and Biotechnology (BIOTEC), Pathum Thani, Thailand (GRID:grid.425537.2) (ISNI:0000 0001 2191 4408); International Joint Research Center on Food Security, Khlong Luang, Thailand (GRID:grid.425537.2); Queen’s University Belfast, Institute for Global Food Security, Belfast, UK (GRID:grid.4777.3) (ISNI:0000 0004 0374 7521)