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Towards the discrimination of carboxylates by hydrogen-bond donor anion receptors

Towards the discrimination of carboxylates by hydrogen-bond donor anion receptors
Towards the discrimination of carboxylates by hydrogen-bond donor anion receptors
The binding constants (log?Kass) of small synthetic receptor molecules based on indolocarbazole, carbazole, indole, urea and some others, as well as their combinations were measured for small carboxylate anions of different basicity, hydrophilicity and steric demands, that is, trimethylacetate, acetate, benzoate and lactate, in 0.5?% H2O/[D6]DMSO by using the relative NMR-based measurement method. As a result, four separate binding affinity scales (ladders) including thirty-eight receptors were obtained with the scales anchored to indolocarbazole. The results indicate that the binding strength is largely, but not fully, determined by the strength of the primary hydrogen-bonding interaction. The latter in turn is largely determined by the basicity of the anion. The higher is the basicity of the anion the stronger in general is the binding, leading to the approximate order of increasing binding strength, lactate<benzoate<acetate?trimethylacetate, which holds with all investigated receptors. Nevertheless, there are a number of occasions when the binding order changes with changing of the carboxylate anion, sometimes quite substantially. Principal component analysis (PCA) reveals that this is primarily connected to preferential binding of trimethylacetate, supposedly caused by an additional hydrophobic/solvophobic interaction. These findings enable making better predictions, which receptor framework or cavity is best suited for carboxylate anions in receptor design
0947-6539
5145-5160
Kadam, Sandip A.
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Martin, Kerli
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Haav, Kristjan
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Toom, Lauri
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Mayeux, Charly
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Pung, Astrid
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Gale, Philip A.
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Hiscock, Jennifer R.
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Brooks, Simon J.
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Kirby, Isabelle L.
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Busschaert, Nathalie
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Leito, Ivo
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Kadam, Sandip A.
d8c0cee1-761c-4b9a-9a93-9b3bb2fabfde
Martin, Kerli
90930982-5051-4a1e-b6e0-f167afe1e4ac
Haav, Kristjan
acf8e6a2-ecc5-48b8-9f87-c91c5ac57329
Toom, Lauri
15074f87-a800-4351-9a63-c71d210bb6a5
Mayeux, Charly
706579d7-559d-41a4-a668-62081ac0d93f
Pung, Astrid
be4d2a9b-b26a-43f9-b163-b26919be7b43
Gale, Philip A.
c840b7e9-6847-4843-91af-fa0f8563d943
Hiscock, Jennifer R.
99a8a34c-a869-48e2-b713-1e69e4741032
Brooks, Simon J.
fcf66c9a-5e4d-47cf-bc9f-e7c8886a061a
Kirby, Isabelle L.
fb76f041-1cd5-4341-ba61-3e34b0927fc7
Busschaert, Nathalie
bf307f09-0a86-4a03-afd8-4b0a59a8f72b
Leito, Ivo
39c9b976-43f0-445b-af1d-3006fba6c7af

Kadam, Sandip A., Martin, Kerli, Haav, Kristjan, Toom, Lauri, Mayeux, Charly, Pung, Astrid, Gale, Philip A., Hiscock, Jennifer R., Brooks, Simon J., Kirby, Isabelle L., Busschaert, Nathalie and Leito, Ivo (2015) Towards the discrimination of carboxylates by hydrogen-bond donor anion receptors. Chemistry - A European Journal, 21 (13), 5145-5160. (doi:10.1002/chem.201405858).

Record type: Article

Abstract

The binding constants (log?Kass) of small synthetic receptor molecules based on indolocarbazole, carbazole, indole, urea and some others, as well as their combinations were measured for small carboxylate anions of different basicity, hydrophilicity and steric demands, that is, trimethylacetate, acetate, benzoate and lactate, in 0.5?% H2O/[D6]DMSO by using the relative NMR-based measurement method. As a result, four separate binding affinity scales (ladders) including thirty-eight receptors were obtained with the scales anchored to indolocarbazole. The results indicate that the binding strength is largely, but not fully, determined by the strength of the primary hydrogen-bonding interaction. The latter in turn is largely determined by the basicity of the anion. The higher is the basicity of the anion the stronger in general is the binding, leading to the approximate order of increasing binding strength, lactate<benzoate<acetate?trimethylacetate, which holds with all investigated receptors. Nevertheless, there are a number of occasions when the binding order changes with changing of the carboxylate anion, sometimes quite substantially. Principal component analysis (PCA) reveals that this is primarily connected to preferential binding of trimethylacetate, supposedly caused by an additional hydrophobic/solvophobic interaction. These findings enable making better predictions, which receptor framework or cavity is best suited for carboxylate anions in receptor design

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e-pub ahead of print date: 13 February 2015
Published date: 13 February 2015
Organisations: Organic Chemistry: SCF

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Local EPrints ID: 376607
URI: http://eprints.soton.ac.uk/id/eprint/376607
ISSN: 0947-6539
PURE UUID: 32b95caf-0fd0-45a8-b111-95d66d32466f
ORCID for Philip A. Gale: ORCID iD orcid.org/0000-0001-9751-4910

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Date deposited: 30 Apr 2015 13:44
Last modified: 15 Mar 2024 03:06

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Contributors

Author: Sandip A. Kadam
Author: Kerli Martin
Author: Kristjan Haav
Author: Lauri Toom
Author: Charly Mayeux
Author: Astrid Pung
Author: Philip A. Gale ORCID iD
Author: Jennifer R. Hiscock
Author: Simon J. Brooks
Author: Isabelle L. Kirby
Author: Nathalie Busschaert
Author: Ivo Leito

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