Abstract
Monoamine oxidase (MAOs) is involved in several psychiatric and neurological disorders. The specific detection of MAOs is of great significance to elucidate their functions in various biological processes. Currently, however, fast detection of MAOs remains a great challenge. It is, therefore, important to develop novel fluorescent probes for the monitoring of intracellular MAO activity. In this study, we synthesized OTPP-3-Piperazine and OTNP-3-Piperazine by functionalizing triarylphosphine with piperazine groups for MAO detection, using the rational design of molecular structures. OTNP-3-Piperazine demonstrated higher sensitivity to MAOs than OTPP-3-Piperazine because MAOs induced an AIE process via oxidation to produce water-insoluble oxidation products in OTNP-3-Piperazine. Such a recognition mechanism instantly responded to MAOs. OTNP-3-Piperazine was also introduced into different cells to explore its application as a biological probe. These results showed that it differentiated MAO-overexpressing cells from other cells, which demonstrated its promise as a biological fluorescent probe.
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