A near-infrared dicyanoisophorone-based fluorescent probe for discriminating HSA from BSA.

[Display omitted] • A dicyanoisophorone-based fluorescent probe DCO2 with twisted N,N-diethylamino as donor is reported for the discrimination of HSA from BSA. • DCO2 could selectively bind with HSA compared to previous probe DCO1. • Experimental results indicated that specific spectral response to HSA was ascribed to the rigid donor structure and steric hindrance of DCO2. • DCO2 could accurately and sensitively detect HSA in the biological fluids. Despite the rapid development of fluorescent probe techniques for the detection of human serum albumin (HSA), a probe that discriminates between HSA and bovine serum albumin (BSA) is still a challenging task, since their similar chemical structures. As a continuation of our work, herein, a dicyanoisophorone-based fluorescent probe DCO2 is systematically studied for discrimination of HSA from BSA. The photophysical and sensing performances of DCO2 , including basic spectroscopic properties, sensing sensitivity, and selectivity, exhibits that DCO2 could selectively bind with HSA and display remarkable fluorescence enhancement (∼254-fold) at 685 nm. The gap of the fluorescent response of DCO2 between HSA and BSA is an obvious increase from 21% to 73% compared to the previous probe DCO1. The sensing mechanism was elucidated by Job's plot, displacement experiment, and molecular docking, suggesting that the specific response to HSA originated from the rigid donor structure and steric hindrance. DCO2 could be buried in the DS1 pocket of HSA, and only partly wedged into the DS1 pocket of BSA with exposing twisted N,N-diethylamino group outside. Application studies indicated that DCO2 has well detective behavior for HSA in the biological fluids. This work could provide a new approach to design HSA-specific near-infrared fluorescence probes. [ABSTRACT FROM AUTHOR]