Abstract: | Monoamine oxidase (MAO) has two isoforms, MAO‐A and MAO‐B, which show different functions, and thus selective fluorescence imaging is important for biological studies. Currently, however, specific detection of MAO‐A remains a great challenge. Herein, we report a new strategy for specific imaging of MAO‐A through the design of fluorogenic probes combining the characteristic structure of an inhibitor of the target enzyme along with propylamine as a recognition moiety. The high specificity of our representative probe is demonstrated by imaging MAO‐A in different live cells such as SH‐SY5Y (high levels of MAO‐A) and HepG2 (high levels of MAO‐B), and further validated by western blot analyses. The superior specificity of the probe may enable the accurate detection of MAO‐A in complex biosystems. Importantly, the use of the characteristic structure of an inhibitor, as demonstrated in this work, may serve as a general strategy to design specific recognition moieties for fluorogenic probes for enzymes. |