Development of a PCR fluorescence sensor utilizing an upconversion FRET system for rapid and ultra-sensitive determination of Escherichia coli

IF 5.3 2区化学 Q1 CHEMISTRY, ANALYTICAL

Microchimica Acta Pub Date : 2025-03-07 DOI:10.1007/s00604-025-07077-1

Lu Han, Yaqi Song, Min Chen, Leiqing Pan, Kang Tu, Jing Su

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Abstract

An upconversion-gold nanoparticle detection system that integrates PCR amplification and fluorescence resonance energy transfer was constructed to enable swift and highly sensitive identification of Escherichia coli. The forward primer used in the PCR amplification is modified with sulfhydryl groups, enabling its connection to gold nanoparticles via Au–S bonds. The complementary strand of the forward primer, which is attached to the upconversion nanomaterials, can hybridize with the free forward primer through base complementary pairing. This interaction induces fluorescence resonance energy transfer, resulting in fluorescence quenching. The concentration of the target bacteria influences the amount of free primer in the system after PCR amplification, which subsequently alters the intensity of the upconversion fluorescence. The fluorescent PCR sensor developed based on the aforementioned principles demonstrated a detection limit of 14 CFU/mL for E. coli, with a quantitative detection range of 18–1.8 × 10⁷ CFU/mL. In comparison to the qPCR method, the number of PCR cycles required for the constructed biosensor can be reduced to approximately 22 to achieve the same detection limit, effectively decreasing the detection time by about 24 min. The spiked recoveries in chicken were 91.8–106.0% with the relative standard deviations less than 10%, indicating that the constructed method exhibits good applicability.

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来源期刊

Microchimica Acta 化学-分析化学

CiteScore

9.80

自引率

5.30%

发文量

410

审稿时长

2.7 months

期刊介绍： As a peer-reviewed journal for analytical sciences and technologies on the micro- and nanoscale, Microchimica Acta has established itself as a premier forum for truly novel approaches in chemical and biochemical analysis. Coverage includes methods and devices that provide expedient solutions to the most contemporary demands in this area. Examples are point-of-care technologies, wearable (bio)sensors, in-vivo-monitoring, micro/nanomotors and materials based on synthetic biology as well as biomedical imaging and targeting.