Fung Kit Tang scite author profile

Fluorescein‐derived superoxide probes featuring a copper(II) complex that can be activated by superoxide to initiate ether bond cleavage and uncage a fluorescein reporter for imaging in live cells are described. Compared to other superoxide sensing moieties, this bond cleavage strategy can be modularly adapted to fluorescent reporters with different properties without compromising the superoxide reactivity and selectivity. A green‐emitting probe and its lysosome‐targeting analogue have been successfully developed. Both probes are sensitive with more than 30‐fold fluorescence enhancement towards superoxide and are highly selective with no significant response towards other reactive oxygen species. A structure–activity relationship study of the copper‐based superoxide trigger showed that the secondary coordination environment of the copper(II) center is important for the superoxide reactivity and selectivity. The probes have been applied in imaging changes in intracellular superoxide level in live HeLa and HEK293T cells upon menadione stimulation and also in a cellular inflammation model in RAW 264.7 cells.

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π-Stacking Stopper-Macrocycle Stabilized Dynamically Interlocked [2]Rotaxanes

Chan

Tang

Lam

et al. 2021

Molecules

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The synthesis of mechanically interlocked molecules is valuable due to their unique topologies. With π-stacking intercomponent interaction, e.g., phenanthroline and anthracene, novel [2]rotaxanes have been synthesized by dynamic imine clipping reaction. Their X-ray crystal structures indicate the π-stackings between the anthracene moiety (stopper) on the thread and the (hetero)aromatic rings at the macrocycle of the rotaxanes. Moreover, the length of glycol chains affects the extra π-stacking intercomponent interactions between the phenyl groups and the dimethoxy phenyl groups on the thread. Dynamic combinatorial library has shown at best 84% distribution of anthracene-threaded phenanthroline-based rotaxane, coinciding with the crystallography in that the additional π-stacking intercomponent interactions could increase the thermodynamic stability and selectivity of the rotaxanes.

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Fung Kit Tang

A modular trigger for the development of selective superoxide probes

Rapid synthesis of bismuth-organic frameworks as selective antimicrobial materials against microbial biofilms

Fluorescein‐Containing Superoxide Probes with a Modular Copper‐Based Trigger

π-Stacking Stopper-Macrocycle Stabilized Dynamically Interlocked [2]Rotaxanes

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