Issue 5, 2010

Implementation of anion-receptormacrocycles in supramolecular tandem assays for enzymes involving nucleotides as substrates, products, and cofactors

Abstract

A supramolecular tandem assay for direct continuous monitoring of nucleotide triphosphate-dependent enzymes such as potato apyrase is described. The underlying principle of the assay relies on the use of anion-receptor macrocycles in combination with fluorescent dyes as reporter pairs. A combinatorial approach was used to identify two complementary reporter pairs, i.e. an amino-γ-cyclodextrin with 2-anilinonaphtalene-6-sulfonate (ANS) as dye (fluorescence enhancement factor of 17 upon complexation) and a polycationic cyclophane with 8-hydroxy-1,3,6-pyrene trisulfonate (HPTS) as dye (fluorescence decrease by a factor of more than 2000), which allow the kinetic monitoring of potato apyrase activity at different ATP concentration ranges (μM and mM) with different types of photophysical responses (switch-ON and switch-OFF). Competitive fluorescence titrations revealed a differential binding of ATP (strongest competitor) versus ADP and AMP, which constitutes the prerequisite for monitoring enzymatic conversions (dephosphorylation or phosphorylation) involving nucleotides. The assay was tested for different enzyme and substrate concentrations and exploited for the screening of activating additives, namely divalent transition metal ions (Ni2+, Mg2+, Mn2+, and Ca2+). The transferability of the assay could be demonstrated by monitoring the dephosphorylation of other nucleotide triphosphates (GTP, TTP, and CTP).

Graphical abstract: Implementation of anion-receptor macrocycles in supramolecular tandem assays for enzymes involving nucleotides as substrates, products, and cofactors

Supplementary files

Article information

Article type
Paper
Submitted
28 Sep 2009
Accepted
05 Dec 2009
First published
07 Jan 2010

Org. Biomol. Chem., 2010,8, 1033-1039

Implementation of anion-receptor macrocycles in supramolecular tandem assays for enzymes involving nucleotides as substrates, products, and cofactors

M. Florea and W. M. Nau, Org. Biomol. Chem., 2010, 8, 1033 DOI: 10.1039/B925192H

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