Shouichiro Tamai scite author profile

Shouichiro Tamai

2Publications

0Citation Statements Received

33Citation Statements Given

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Affiliations

University of Miyazaki

Publications

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Simultaneous detection of various pathogenic Escherichia coli in water by sequencing multiplex PCR amplicons

Suzuki

Shimizu

Tamai

et al. 2023

Environ Monit Assess

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Waterborne diseases due to pathogen contamination in water are a serious problem all over the world.Accurate and simultaneous detection of pathogens in water is important to protect public health. In this study, we developed a method to simultaneously detect various pathogenic Escherichia coli by sequencing the amplicons of multiplex PCR. Our newly designed multiplex PCR ampli ed ve genes for pathogenic E. coli (uidA, stx1, stx2, STh gene, and LT gene). Additional two PCR assays (for aggRand eae) were also designed and included in the amplicon sequencing analysis. The same assays were also used for digital PCR (dPCR). Strong positive correlations were observed between the sequence read count and the dPCR results for most of the genes targeted, suggesting that our multiplex PCR-amplicon sequencing approach could provide quantitative information. The method was also successfully applied to monitor the level of pathogenic E. coli in river water and wastewater samples. The approach shown here could be expanded by targeting genes for other pathogens.

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Simultaneous detection of various pathogenic Escherichia coli in water by sequencing multiplex PCR amplicons

Suzuki

Shimizu

Tamai

et al. 2022

Preprint

View full text Add to dashboard Cite

Waterborne diseases due to pathogen contamination in water are a serious problem all over the world. Accurate and simultaneous detection of pathogens in water is important to protect public health. In this study, we developed a method to simultaneously detect various pathogenic Escherichia coli by sequencing the amplicons of multiplex PCR. Our newly designed multiplex PCR amplified five genes for pathogenic E. coli (uidA, stx1, stx2, STh gene, and LT gene). Additional two PCR assays (for aggRand eae) were also designed and included in the amplicon sequencing analysis. The same assays were also used for digital PCR (dPCR). Strong positive correlations were observed between the sequence read count and the dPCR results for most of the genes targeted, suggesting that our multiplex PCR-amplicon sequencing approach could provide quantitative information. The method was also successfully applied to monitor the level of pathogenic E. coli in river water and wastewater samples. The approach shown here could be expanded by targeting genes for other pathogens.

show abstract

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