Issue 32, 2023

Anion binding and transport with meso-alkyl substituted two-armed calix[4]pyrroles bearing urea and hydroxyl groups

Abstract

Calix[4]pyrroles bearing hydroxyl (1) or urea (3) groups attached to the meso-positions with propyl linkers were synthesized as cis- and trans-isomers. The anion binding properties of cis-1 and cis-3 were screened with ion-mobility mass spectrometry, where cis-1 formed complexes with Cl, Br and H2PO4, whereas cis-3 formed complexes with most of the investigated anions, including Cl, Br, I, NO3, ClO4, OTf, SCN and PF6. The structures of the chloride complexes were further elucidated with density functional theory calculations and a crystal structure obtained for cis-1. In solution, chloride and dihydrogenphosphate anion binding with cis-1 and cis-3 were compared using 1H NMR titrations. To assess the suitability of two-armed calix[4]pyrroles as anion transporters, chloride transport studies of cis-1, cis-3 and trans-3 were performed using large unilamellar vesicles. The results revealed that cis-3 had the highest activity among the investigated calix[4]pyrroles, which was related to the improved affinity and isolation of chloride inside the binding cavity of cis-3 in comparison to cis-1. The results indicate that appending calix[4]pyrroles with two hydrogen bonding arms is a feasible strategy to obtain anion transporters and receptors with high anion affinity.

Graphical abstract: Anion binding and transport with meso-alkyl substituted two-armed calix[4]pyrroles bearing urea and hydroxyl groups

Supplementary files

Article information

Article type
Paper
Submitted
09 Jun 2023
Accepted
24 Jul 2023
First published
01 Aug 2023
This article is Open Access
Creative Commons BY license

Org. Biomol. Chem., 2023,21, 6595-6603

Anion binding and transport with meso-alkyl substituted two-armed calix[4]pyrroles bearing urea and hydroxyl groups

M. Pamuła, E. Bulatov, L. Martínez-Crespo, A. Kiesilä, J. Naulapää, E. Kalenius and K. Helttunen, Org. Biomol. Chem., 2023, 21, 6595 DOI: 10.1039/D3OB00919J

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