Naphthalimide-linked bispyridinium clefts in selective aqueous sensing of triphosphate and triphosphate-based biomolecules?

Analytical Methods Pub Date: 2019-10-10 DOI: 10.1039/C9AY01588D

Abstract

Naphthalimide-based charged sensors 1 and 2 have been designed and synthesized. Both the chemosensors selectively bind P3O105? (PPPi) in CH3CN–H2O (1?:?1, v/v, using 10 mM HEPES, pH = 6.8) exhibiting a marked quenching in emission and distinguish it from P2O74?, HP2O73? and other anions. Of the two structures, sensor 1 shows more sensitivity towards triphosphate. Moreover, both the compounds exhibit preferential interaction with triphosphate-based nucleotides over mono- and di-nucleotides by showing significant quenching of emission. For example, ATP is selectively sensed over ADP and AMP. Like ATP, other triphosphate-based nucleotides such as GTP, CTP and TTP show significant quenching of emission of both 1 and 2. Thus the designed sensors can also act as a marker of triphosphate-based nucleotides over their lower homologues. The ensembles of 1 and 2 with PPPi are also useful in probing enzymatic hydrolysis and in aqueous detection of Ca2+/Mg2+ ions.

Graphical abstract: Naphthalimide-linked bispyridinium clefts in selective aqueous sensing of triphosphate and triphosphate-based biomolecules
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