期刊
SENSORS AND ACTUATORS B-CHEMICAL
卷 371, 期 -, 页码 -出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.snb.2022.132581
关键词
Ratiometric biosensors; Fluorescent probe; Functional nucleic acid; Bleomycin detection; Thioflavin T
资金
- National Natural Science Foundation of China
- Science and Technology Foundation for Excellent Creative Research Group of Hubei Provincial Department of Education
- [22076043]
- [T201810]
In this study, a novel ratiometric fluorescence biosensing method was developed for the convenient determination of bleomycin (BLM) using two target-sensitive fluorescent probes. This method showed excellent analytical performance, convenient manipulation, and low assay cost, indicating its high potential for future applications.
The development of methods for the convenient determination of the bleomycin (BLM) antibiotic is significantly important in the clinical therapy field. Herein we report a novel ratiometric fluorescence biosensing method for BLM assays by utilizing two target-sensitive fluorescent probes to produce reversible signal response. One signal arose from the target recognition-triggered and exonuclease III (Exo III)-catalytic release of a G-quadruplex sequence. This could cause the recombination of the G-quadruplex with thioflavin T (ThT) to realize the signal -on fluorescence output. The other signal arose from the target recognition and Exo III-catalytic reaction-induced DNA hybridization of a ROX fluorophore-labeled strand with its quencher-labeled strand. This proximity quenching effect could realize the signal-off fluorescence output of the method. Meanwhile, the dually Exo III -catalytic recycling greatly amplified the ThT and ROX-based fluorescence response. Through the measurement of the ratio of the two reversible responses, a novel ratiometric fluorescence biosensing method was successfully constructed for the homogeneous assay of BLM in a very wide linear range from 50 pM to 5 mu M, with a very low detection limit of 15.8 pM. The excellent analytical performance, convenient manipulation, and low assay cost of the method determine its high potential for future applications.
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