Amino acid-based squaramides for anion recognition
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Open Access
Type
ArticleAbstract
Eight receptors 1–8 comprising an L-lysine scaffold modified at N- and C-termini with aliphatic alkyl chains and N,N0-alkyl amides, respectively, and bearing squaramide moieties on the amino acid side chain were synthesised by a combination of solid- and solution-phase chemistries ...
See moreEight receptors 1–8 comprising an L-lysine scaffold modified at N- and C-termini with aliphatic alkyl chains and N,N0-alkyl amides, respectively, and bearing squaramide moieties on the amino acid side chain were synthesised by a combination of solid- and solution-phase chemistries and shown to complex various anions in 0.5%H2Oin dimethyl sulfoxide-d6 solution. All of the receptors were found to bind SO22 4 ; Cl2, AcO2 and BzO2 via hydrogen-bond or acid–base interactions with the squaramide protons; however, 1 was found to bind to SO22 4 via hydrogen bonds formed between the anion and both the squaramide and amideNHmoieties. Moreover, modification of both the N- and C-termini of the amino acids with different alkyl substituents had a negligible effect on their anion-binding properties while simultaneously conferring lipophilicities in a range that is optimal for molecules to behave as ‘drug-like’ systems as defined by Lipinski’s rule of five. The results of this study demonstrate the versatility of such amino acid receptors as building blocks in the field of anion recognition.
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See moreEight receptors 1–8 comprising an L-lysine scaffold modified at N- and C-termini with aliphatic alkyl chains and N,N0-alkyl amides, respectively, and bearing squaramide moieties on the amino acid side chain were synthesised by a combination of solid- and solution-phase chemistries and shown to complex various anions in 0.5%H2Oin dimethyl sulfoxide-d6 solution. All of the receptors were found to bind SO22 4 ; Cl2, AcO2 and BzO2 via hydrogen-bond or acid–base interactions with the squaramide protons; however, 1 was found to bind to SO22 4 via hydrogen bonds formed between the anion and both the squaramide and amideNHmoieties. Moreover, modification of both the N- and C-termini of the amino acids with different alkyl substituents had a negligible effect on their anion-binding properties while simultaneously conferring lipophilicities in a range that is optimal for molecules to behave as ‘drug-like’ systems as defined by Lipinski’s rule of five. The results of this study demonstrate the versatility of such amino acid receptors as building blocks in the field of anion recognition.
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Date
2015-01-01Publisher
Taylor and FrancisLicence
This is an Accepted Manuscript of an article published by Taylor & Francis in Supramolecular Chemistryon 2015available online: http://www.tandfonline.com/ 10.1080/10610278.2014.976221Citation
Elmes, R. B. P., & Jolliffe, K. A. (2014). Amino acid-based squaramides for anion recognition. Supramolecular Chemistry, 27(5–6), 321–328. https://doi.org/10.1080/10610278.2014.976221Share