Issue 31, 2016

Structural and spectroscopic insight into the metal binding properties of the o-aminophenol-N,N,O-triacetic acid (APTRA) chelator: implications for design of metal indicators

Abstract

The o-aminophenol-N,N,O-triacetic acid (APTRA) chelator is employed extensively as a metal-recognition moiety in fluorescent indicators for biological free Mg2+, as well as in low-affinity indicators for the detection of high levels of cellular Ca2+. Despite its widespread use in sensor design, the limited metal selectivity of this chelating moiety can lead to binding of competing cations that complicate the fluorescence-based detection of metals of interest in complex samples. Reported herein are the structural characterization of APTRA complexes with various biologically relevant cations, and the thermodynamic analysis of complex formation with Mg2+, Ca2+ and Zn2+. Our results indicate that the low affinity of APTRA for Mg2+, which makes it a suitable metal-recognition moiety for sensitive analysis of typical millimolar levels of this metal in cells, stems from a much higher enthalpic cost of Mg2+ binding compared to that of other cations. The results are discussed in the context of indicator design, highlighting the aspects that may aid the future development of fluorescent sensors with enhanced metal selectivity profiles.

Graphical abstract: Structural and spectroscopic insight into the metal binding properties of the o-aminophenol-N,N,O-triacetic acid (APTRA) chelator: implications for design of metal indicators

Supplementary files

Article information

Article type
Paper
Submitted
22 Apr 2016
Accepted
05 Jul 2016
First published
19 Jul 2016

Dalton Trans., 2016,45, 12458-12464

Structural and spectroscopic insight into the metal binding properties of the o-aminophenol-N,N,O-triacetic acid (APTRA) chelator: implications for design of metal indicators

M. Brady, S. D. Piombo, C. Hu and D. Buccella, Dalton Trans., 2016, 45, 12458 DOI: 10.1039/C6DT01557C

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