An aptamer-exonuclease III (Exo III)–assisted amplification-based lateral flow assay for sensitive detection of Escherichia coli O157:H7 in milk

Ren, Yan; Gao, Pingping; Yang, Song; Yang, Xinyan; Yang, Tao; Chen, Sihan; Fu, Shiqian; Xue, Qiang; Shao, Meili; Man, Chaoxin; Jiang, Yujun

doi:10.3168/jds.2020-19939

Cited by 33 publications

(9 citation statements)

References 52 publications

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“…Most of these LFA methods have been developed to identify pathogenic bacteria and viruses that have caused many health and economic problems worldwide. For example, Ren et al ( 2021) developed an aptamer-based LFA for sensitive detection of Escherichia coli O157:H7 (E. coli O157:H7), which is one of the most widespread foodborne pathogens [49]. In order to increase the assay sensitivity, they combined aptamer-exonuclease III (Exo III)-assisted amplification with AuNPs-based LFA.…”

Section: Detection Of Microbial Analytesmentioning

confidence: 99%

Aptamer-Based Lateral Flow Assays: Current Trends in Clinical Diagnostic Rapid Tests

2022

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The lateral flow assay (LFA) is an extensively used paper-based platform for the rapid and on-site detection of different analytes. The method is user-friendly with no need for sophisticated operation and only includes adding sample. Generally, antibodies are employed as the biorecognition elements in the LFA. However, antibodies possess several disadvantages including poor stability, high batch-to-batch variation, long development time, high price and need for ethical approval and cold chain. Because of these limitations, aptamers screened by an in vitro process can be a good alternative to antibodies as biorecognition molecules in the LFA. In recent years, aptamer-based LFAs have been investigated for the detection of different analytes in point-of-care diagnostics. In this review, we summarize the applications of aptamer technology in LFAs in clinical diagnostic rapid tests for the detection of biomarkers, microbial analytes, hormones and antibiotics. Performance, advantages and drawbacks of the developed assays are also discussed.

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Section: Detection Of Microbial Analytesmentioning

confidence: 99%

Aptamer-Based Lateral Flow Assays: Current Trends in Clinical Diagnostic Rapid Tests

2022

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“…The technology was only tested in pure culture setups, and it may need longer assay time with potential pre-treatment steps during real applications. In milk samples, STEC O157:H7 was detected using an aptamer-exonuclease III (Exo III)–assisted amplification-based lateral flow assay ( Ren et al, 2021 ). Its hairpin sequence post enzymolysis was identical to the target ssDNA sequence, thus allowing signal amplification and achieving a LOD of 7.6 × 10 1 CFU/ml in pure culture and 8.35 × 10 2 CFU/ml in milk samples.…”

Section: Aptamer-based Biosensorsmentioning

confidence: 99%

Advances, applications, and limitations of portable and rapid detection technologies for routinely encountered foodborne pathogens

et al. 2022

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Traditional foodborne pathogen detection methods are highly dependent on pre-treatment of samples and selective microbiological plating to reliably screen target microorganisms. Inherent limitations of conventional methods include longer turnaround time and high costs, use of bulky equipment, and the need for trained staff in centralized laboratory settings. Researchers have developed stable, reliable, sensitive, and selective, rapid foodborne pathogens detection assays to work around these limitations. Recent advances in rapid diagnostic technologies have shifted to on-site testing, which offers flexibility and ease-of-use, a significant improvement from traditional methods’ rigid and cumbersome steps. This comprehensive review aims to thoroughly discuss the recent advances, applications, and limitations of portable and rapid biosensors for routinely encountered foodborne pathogens. It discusses the major differences between biosensing systems based on the molecular interactions of target analytes and biorecognition agents. Though detection limits and costs still need further improvement, reviewed technologies have high potential to assist the food industry in the on-site detection of biological hazards such as foodborne pathogens and toxins to maintain safe and healthy foods. Finally, this review offers targeted recommendations for future development and commercialization of diagnostic technologies specifically for emerging and re-emerging foodborne pathogens.

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“…However, in addition to the intensive labor and prolonged testing time, the plate cultivation method fails to detect bacteria in a viable but nonculturable (VBNC) state, yet these may revive upon changes in the environment. 6 To address this question, many culture-independent methods have been or are being developed, such as enzyme-linked immunosorbent assay (ELISA), 7,8 ow cytometry (FCM), 9,10 surface-enhanced Raman scattering (SERS), 11,12 and gold nanoparticle (AuNP) colorimetric detection. 13,14 However, the amplication and detection of bacterial pathogens with a concentration lower than 10 2 cfu mL −1 remains a great challenge.…”

Section: Introductionmentioning

confidence: 99%

Bridge-DNA synthesis triggered by an allosteric aptamer for the colorimetric detection of pathogenic bacteria

et al. 2023

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An aptamer-exonuclease III (Exo III)–assisted amplification-based lateral flow assay for sensitive detection of Escherichia coli O157:H7 in milk

Cited by 33 publications

References 52 publications

Aptamer-Based Lateral Flow Assays: Current Trends in Clinical Diagnostic Rapid Tests

Aptamer-Based Lateral Flow Assays: Current Trends in Clinical Diagnostic Rapid Tests

Advances, applications, and limitations of portable and rapid detection technologies for routinely encountered foodborne pathogens

Bridge-DNA synthesis triggered by an allosteric aptamer for the colorimetric detection of pathogenic bacteria

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