AI Article Synopsis
- Ochratoxin A (OTA) is a harmful substance found in many foods, requiring effective detection methods for safety and health.
- Two new aptasensors, OTABA4 and OTABA3, were developed using modified OTA-binding aptamers that enhance the detection of OTA by increasing fluorescent signals when OTA is absent.
- The updated systems demonstrated significantly improved sensitivity in detecting OTA, with detection limits of 0.28 ng/ml for OTABA4 and 0.059 ng/ml for OTABA3, and performed effectively in testing corn and peanut samples for food safety.
Article Abstract
Ochratoxin A (OTA) is a toxic metabolite commonly found in various foods and feedstuffs. Accurate and sensitive detection of OTA is needed for food safety and human health. Based on a common OTA-binding aptamer (OTABA), two structure-switching OTABAs, namely OTABA4 and OTABA3, were designed by configuring a split G-quadruplex and a split G-triplex, respectively, at the two ends of OTABA to construct aptasensors for the detection of OTA. The OTABA, G-quadruplex, and G-triplex all can capture the thioflavin T (ThT) probe, thereby enhancing the fluorescence intensity of ThT. Bonding with OTA could change the conformations of OTABA and G-quadruplex or G-triplex regions, resulting in the release of the captured ThT and diminution of its fluorescence intensity. Dual conformation changes in structure-switching OTABA synergistically amplified the fluorescence signal and improved the sensitivity of the aptasensor, especially for that with OTABA3. The detection limits of the OTABA4-ThT and OTABA3-ThT systems for OTA were 0.28 and 0.059 ng ml , with a 1.4-fold and 6.7-fold higher sensitivity than that of the original OTABA-ThT system, respectively. They performed well in corn and peanut samples and met the requirements of the food safety inspections.
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