A DMSO-assisted iridium(iii) complex as a luminescent “turn-on” sensor for selective detection of l-histidine and bacterial imaging

Abstract

Histidine (His) is a semi-essential amino acid and a unique key neurotransmitter involved in numerous physiological processes. An excessive or deficient amount of His in the body can lead to various related diseases. However, since the chemical structures of L-His and its metabolites (such as histamine (Ha), imidazole-4-acetate (ImA), etc.) are very similar, simple and efficient selective detection of L-His and its related metabolites is of great importance but remains a great challenge. Herein, we successfully designed and synthesized a DMSO-assisted iridium(III) complex (Ir1-DMSO), which can be applied as a “turn-on” photoluminescence (PL) probe for the selective detection and quantification of L-His/Ha. More importantly, Ir1-DMSO exhibited good sensitivity, high selectivity, and anti-interference capability for L-His/Ha/His-containing proteins, which is advantageous due to its simple fabrication and low technical demands. This was attributed to the reaction of Ir1-DMSO with imidazole and amino groups of L-His/Ha. Furthermore, we show the utility of Ir1-DMSO as a PL imaging agent in cultures of E. coli and S. aureus. Considering its diversity of composition and structural flexibility, it can be extended to other solvents and Ir-ligand complexes for various analyses based on specific molecular recognition sensing platforms.