Bifunctional M13 Phage as Enzyme Container for the Reinforced Colorimetric-Photothermal Dual-Modal Sensing of Ochratoxin A.
Weipeng TongHanpeng XiongHao FangYuhao WuHaichuan LiXiaolin HuangYuankui LengYonghua XiongPublished in: Toxins (2022)
"Point of care" (POC) methods without expensive instruments and special technicians are greatly needed for high-throughput analysis of mycotoxins. In comparison, the most widely used screening method of the conventional enzyme-linked immunosorbent assay (ELISA) confronts low sensitivity and harmful competing antigens. Herein, we develop a plasmonic-photothermal ELISA that allows precise readout by color-temperature dual-modal signals based on enzymatic reaction-induced AuNP aggregation for highly sensitive detection of ochratoxin A (OTA). The bifunctional M13 phage carrying OTA that mimics the mimotope on the end of p3 proteins and abundant biotin molecules on the major p8 proteins is adopted as an eco-friendly competing antigen and enzyme container for amplifying the signal intensity. Under optimal conditions, both colorimetric and photothermal signals enable good dynamic linearity for quantitative OTA detection with the limits of detection at 12.1 and 8.6 pg mL -1 , respectively. Additionally, the proposed ELISA was adapted to visual determination with a cutoff limit of 78 pg mL -1 according to a vivid color change from deep blue to red. The recoveries of OTA-spiked corn samples indicate the high accuracy and robustness of the proposed method. In conclusion, our proposed strategy provides a promising method for eco-friendly and sensitive POC screening of OTA. Moreover, it can be easily applied to other analytes by changing the involved specific mimotope sequence.
Keyphrases
- sensitive detection
- loop mediated isothermal amplification
- high throughput
- photodynamic therapy
- label free
- quantum dots
- cancer therapy
- hydrogen peroxide
- gold nanoparticles
- drug delivery
- pseudomonas aeruginosa
- drug release
- monoclonal antibody
- highly efficient
- high resolution
- immune response
- single molecule
- high intensity
- diabetic rats
- metal organic framework
- stress induced
- aqueous solution
- light emitting