Photocatalytic colorimetry and fluorescence dual-signal biosensor for instant determination of terminal deoxynucleotidyl transferase

Abstract

Terminal deoxynucleotidyl transferase (TdT) is a crucial biomarker for diseases such as lymphoblastic leukemia. Herein, a photocatalytic colorimetry and fluorescence dual-signal biosensor (PhoCoF-sensor) for simple, low-cost and sensitive detection of TdT was developed, which integrated with the TdT-triggered polymerization reaction and the fluorescence-photocatalytic dual performance of double-strand DNA/SYBR Green-I (dsDNA/SG-I) complex. The target TdT catalyzed the elongation of single-stranded DNA in the dTTP substrate pool, and then hybridized with complementary DNA to form dsDNA/SG-I complex that exhibited obvious fluorescent and excellent photocatalytic activity. Reactive oxygen species were generated from photosensitization of the dsDNA/SG-I complex acted as the visual colorimetric readout. The PhoCoF-sensor was successfully used to detect TdT activity with a series of color and fluorescence changes in the concentration range from 0.5 U/mL to 20.0 U/mL. The PhoCoF-sensor further improves the assay simplicity and accuracy and reduces the time and cost, which overcomes the limitations of traditional detection TdT methods and single-signal sensors. Additionally, this PhoCoF-sensor can readily be integrated with centrifugal microfluidic device for one-step test and achieve quantitative determination without sophisticated instruments. Moreover, the PhoCoF-sensor has good sensitivity and good practical reliability and is suitable for instant determination in early disease diagnosis and drug discovery.