A novel fluorescence method for detection of phosphate anions based on porphyrin metalation

In this work, a novel fluorescence method for the detection of phosphate anions (PO43-) was developed based on porphyrin metalation. Through catalysis by G-quadruplex (G4), Cu2+ could insert into the porphyrins to quench their fluorescence. G4 simultaneously improved the fluorescence of the porphyrins but not that of Cu2+-porphyrin. In the absence of PO43-, the porphyrins were metallized by Cu2+, and no fluorescence was observed. In the presence of PO43-, PO43- could coordinate with Cu2+ to prevent porphyrin metalation. Free porphyrin could bind with G4 to emit strong fluorescence. By comparing four common porphyrins, we found that G4 had the greatest effect on increasing the fluorescence intensity of N-methylmesoporphyrin IX (NMM). Thus, NMM/G4 was chosen for the design of a biosensor. Under optimal experimental conditions, this method showed high sensitivity and satisfactory selectivity for PO43- with a detection limit of 44 nM in a linear range of 0.01-1.0 mu M. The recovery experiments showed recovery rates of 93.75-106.00%, suggesting a great potential for measuring PO43- in real samples. (C) 2022 Elsevier B.V. All rights reserved.

Automated summary

A novel fluorescence method for the detection of phosphate anions (PO43-) was developed based on porphyrin metalation. The method showed high sensitivity and satisfactory selectivity, making it a potential technique for measuring PO43- in real samples.