Accurate method to quantify binding in supramolecular chemistry
Accurate method to quantify binding in supramolecular chemistry
An approach for accurate and comparable measurement of host–guest binding affinities is introduced whereby differences in binding strength (?logKass values) are measured between two host molecules toward a particular guest under identical solvent conditions. Measuring differences instead of absolute values enables obtaining highly accurate results, because many of the uncertainty sources (the solvation/association state of the guest in solution, deviations in solvent composition, etc.) cancel out. As a proof of concept, this method was applied to the measurement of the binding strength of 28 synthetic anion receptors toward acetate in acetonitrile containing 0.5% water. The receptors included differently substituted indolocarbazoles, ureas, thioureas, and some others. Possible deprotonation of more acidic receptors of each compound class by acetate was checked by measuring their acidities (?pKa values) relative to acetic acid in the same solvent. A self-consistent (consistency standard deviation 0.04 log units) binding affinity scale ranging for around 2.7 log units was constructed from the results. Absolute logKass values were found by anchoring the scale to the absolute logKass values of two receptor molecules, determined independently by direct measurements. This new approach is expected to find use in accurate quantification of a wide range of binding processes relevant to supramolecular chemistry
7796-7808
Haav, Kristjan
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Kadam, Sandip A.
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Toom, Lauri
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Gale, Philip A.
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Busschaert, Nathalie
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Wenzel, Marco
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Hiscock, Jennifer R.
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Kirby, Isabelle L.
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Haljasorg, Tõiv
f7c97865-5642-4deb-828d-9b09c44f588e
Lõkov, Märt
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Leito, Ivo
39c9b976-43f0-445b-af1d-3006fba6c7af
2013
Haav, Kristjan
acf8e6a2-ecc5-48b8-9f87-c91c5ac57329
Kadam, Sandip A.
d8c0cee1-761c-4b9a-9a93-9b3bb2fabfde
Toom, Lauri
15074f87-a800-4351-9a63-c71d210bb6a5
Gale, Philip A.
c840b7e9-6847-4843-91af-fa0f8563d943
Busschaert, Nathalie
bf307f09-0a86-4a03-afd8-4b0a59a8f72b
Wenzel, Marco
d1c2d66d-80a9-4d77-88c6-5c25fbaac546
Hiscock, Jennifer R.
99a8a34c-a869-48e2-b713-1e69e4741032
Kirby, Isabelle L.
5839d488-f346-4741-b757-9ecf30777938
Haljasorg, Tõiv
f7c97865-5642-4deb-828d-9b09c44f588e
Lõkov, Märt
c9b62030-e9cf-4aaf-b59f-b0b8d2c4a019
Leito, Ivo
39c9b976-43f0-445b-af1d-3006fba6c7af
Haav, Kristjan, Kadam, Sandip A., Toom, Lauri, Gale, Philip A., Busschaert, Nathalie, Wenzel, Marco, Hiscock, Jennifer R., Kirby, Isabelle L., Haljasorg, Tõiv, Lõkov, Märt and Leito, Ivo
(2013)
Accurate method to quantify binding in supramolecular chemistry.
Journal of Organic Chemistry, 78 (16), .
(doi:10.1021/jo400626p).
Abstract
An approach for accurate and comparable measurement of host–guest binding affinities is introduced whereby differences in binding strength (?logKass values) are measured between two host molecules toward a particular guest under identical solvent conditions. Measuring differences instead of absolute values enables obtaining highly accurate results, because many of the uncertainty sources (the solvation/association state of the guest in solution, deviations in solvent composition, etc.) cancel out. As a proof of concept, this method was applied to the measurement of the binding strength of 28 synthetic anion receptors toward acetate in acetonitrile containing 0.5% water. The receptors included differently substituted indolocarbazoles, ureas, thioureas, and some others. Possible deprotonation of more acidic receptors of each compound class by acetate was checked by measuring their acidities (?pKa values) relative to acetic acid in the same solvent. A self-consistent (consistency standard deviation 0.04 log units) binding affinity scale ranging for around 2.7 log units was constructed from the results. Absolute logKass values were found by anchoring the scale to the absolute logKass values of two receptor molecules, determined independently by direct measurements. This new approach is expected to find use in accurate quantification of a wide range of binding processes relevant to supramolecular chemistry
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Published date: 2013
Organisations:
Organic Chemistry: Synthesis, Catalysis and Flow
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Local EPrints ID: 356021
URI: http://eprints.soton.ac.uk/id/eprint/356021
ISSN: 0022-3263
PURE UUID: b437f62a-37f1-4ea9-abdb-19315ec7ef8b
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Date deposited: 06 Sep 2013 08:12
Last modified: 15 Mar 2024 03:06
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Contributors
Author:
Kristjan Haav
Author:
Sandip A. Kadam
Author:
Lauri Toom
Author:
Philip A. Gale
Author:
Nathalie Busschaert
Author:
Marco Wenzel
Author:
Jennifer R. Hiscock
Author:
Isabelle L. Kirby
Author:
Tõiv Haljasorg
Author:
Märt Lõkov
Author:
Ivo Leito
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