Sulfate-Selective Recognition by Using Neutral Dipeptide Anion Receptors in Aqueous Solution

The synthesis of six small peptide anion receptors based on thiourea and squaramide recognition moieties is described. These new receptors bind to tetrahedral sulfate anions with remarkable affinity and selectivity in aqueous so- lution as shown by NMR spectroscopy. Molecular modelling suggests that selectivity is mediated by a hydrogen bond network incorporating the amide backbone protons in a manner similar to that found in the sulfate-binding pro- tein

Triazole–containing zinc(II)dipicolylamine-functionalised peptides as highly selective pyrophosphate sensors in physiological media

<p>A small family of linear bis[zinc(II)dipicolylamine] (bis[Zn(II)-DPA])-functionalised peptidic anion receptors has been prepared where the Zn(II)-DPA binding sites have been installed via either a reductive amination reaction or a copper(I)-catalysed azide-alkyne cycloaddition reaction. The latter reaction connects the Zn(II)-DPA binding site and the peptide backbone through a 1,2,3-triazole linkage. Subsequent anion binding studies using indicator displacement assays were conducted to elucidate the effect of the triazole linker on the anion-binding properties of these novel receptors and it was found that the triazole-containing receptors exhibited stronger affinity and slightly improved selectivity for pyrophosphate over adenosine triphosphate and adenosine diphosphate compared to the analogous receptors which did not bear the triazole linker.</p