<p><i>Pseudomonas aeruginosa</i> is a significant waterborne pathogen that poses substantial public health risks, particularly in bottled drinking water. Traditional methods for detecting <i>P. aeruginosa</i> are often time-consuming, expensive, and require complex equipment. This study developed a novel Saltatory Rolling Circle Amplification (SRCA) method for the rapid, sensitive, and specific detection of <i>P. aeruginosa</i> in bottled drinking water. The technique utilizes a simple water bath for isothermal DNA amplification and incorporates SYBR Green I for visual colorimetric detection, eliminating the need for complex post-amplification processes such as gel electrophoresis. The SRCA assay demonstrated high sensitivity with a detection limit of 9.1 × 10<sup>1</sup>&#xa0;CFU/mL and exhibited excellent specificity, as amplification products were only detected in samples containing <i>P. aeruginosa</i> DNA. A clear colorimetric response allowed straightforward interpretation, with positive samples exhibiting distinct green fluorescence. Evaluation using&#xa0;200 artificially contaminated samples&#xa0;revealed that the SRCA method achieved&#xa0;100.00% sensitivity, 98.90% specificity, and 99.00% accuracy&#xa0;compared to conventional microbiological culture. This SRCA-based assay therefore represents a promising tool for&#xa0;rapid, cost-effective, and on-site detection&#xa0;of&#xa0;<i>P. aeruginosa</i>&#xa0;in drinking water, with potential applications for enhancing public health safety in both industrial and field environments.</p>

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Development and Application of SRCA for Rapid Detection of Pseudomonas aeruginosa in Bottled Drinking Water

  • Lianbao Zheng,
  • Jiahong Zhu,
  • Xiaohong Zhang,
  • Yunbin Yang,
  • Hongxia Yang,
  • Tong Hu,
  • Weihong Zhong

摘要

Pseudomonas aeruginosa is a significant waterborne pathogen that poses substantial public health risks, particularly in bottled drinking water. Traditional methods for detecting P. aeruginosa are often time-consuming, expensive, and require complex equipment. This study developed a novel Saltatory Rolling Circle Amplification (SRCA) method for the rapid, sensitive, and specific detection of P. aeruginosa in bottled drinking water. The technique utilizes a simple water bath for isothermal DNA amplification and incorporates SYBR Green I for visual colorimetric detection, eliminating the need for complex post-amplification processes such as gel electrophoresis. The SRCA assay demonstrated high sensitivity with a detection limit of 9.1 × 101 CFU/mL and exhibited excellent specificity, as amplification products were only detected in samples containing P. aeruginosa DNA. A clear colorimetric response allowed straightforward interpretation, with positive samples exhibiting distinct green fluorescence. Evaluation using 200 artificially contaminated samples revealed that the SRCA method achieved 100.00% sensitivity, 98.90% specificity, and 99.00% accuracy compared to conventional microbiological culture. This SRCA-based assay therefore represents a promising tool for rapid, cost-effective, and on-site detection of P. aeruginosa in drinking water, with potential applications for enhancing public health safety in both industrial and field environments.