A complete derivation of the KÃ¤rger equations for analyzing NMR diffusion measurements of exchanging systems

Dj Wijesekera; Timothy Stait-Gardner; Abhishek Gupta; Johnny Chen; Gang Zheng; Allan M. Torres; William S. Price

doi:10.1002/cmr.a.21468

A complete derivation of the KÃ¤rger equations for analyzing NMR diffusion measurements of exchanging systems

Dj Wijesekera, Timothy Stait-Gardner, Abhishek Gupta, Johnny Chen, Gang Zheng, Allan M. Torres, William S. Price

Western Sydney University

Research output: Contribution to journal › Article › peer-review

13 Citations (Scopus)

Abstract

The use of NMR methods to quantitatively determine association/dissociation constants in biological and chemical systems (eg, drug binding/protein-ligand interactions) is long established. Among these, NMR diffusion-based techniques are increasingly prominent. In this article, the KÃƒÂ¤rger equations, used for analyzing NMR diffusion-based measurements of exchange, are derived from first principles and then solved in detail for the case of a two-site freely diffusing system under simplifying assumptions that the chemical shift and the relaxation in both sites are the same. Care is taken to clarify the connections between the experimental variables and the parameters of the KÃƒÂ¤rger equations.

Original language	English
Article number	e21468
Number of pages	12
Journal	Concepts in Magnetic Resonance. Part A
Volume	47A
Issue number	2
DOIs	https://doi.org/10.1002/cmr.a.21468
Publication status	Published - 2019

Keywords

diffusion
nuclear magnetic resonance

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10.1002/cmr.a.21468

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title = "A complete derivation of the K{\~A}¤rger equations for analyzing NMR diffusion measurements of exchanging systems",

abstract = "The use of NMR methods to quantitatively determine association/dissociation constants in biological and chemical systems (eg, drug binding/protein-ligand interactions) is long established. Among these, NMR diffusion-based techniques are increasingly prominent. In this article, the K{\~A}ƒ{\^A}¤rger equations, used for analyzing NMR diffusion-based measurements of exchange, are derived from first principles and then solved in detail for the case of a two-site freely diffusing system under simplifying assumptions that the chemical shift and the relaxation in both sites are the same. Care is taken to clarify the connections between the experimental variables and the parameters of the K{\~A}ƒ{\^A}¤rger equations.",

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AU - Chen, Johnny

AU - Zheng, Gang

AU - Torres, Allan M.

AU - Price, William S.

PY - 2019

Y1 - 2019

N2 - The use of NMR methods to quantitatively determine association/dissociation constants in biological and chemical systems (eg, drug binding/protein-ligand interactions) is long established. Among these, NMR diffusion-based techniques are increasingly prominent. In this article, the KÃƒÂ¤rger equations, used for analyzing NMR diffusion-based measurements of exchange, are derived from first principles and then solved in detail for the case of a two-site freely diffusing system under simplifying assumptions that the chemical shift and the relaxation in both sites are the same. Care is taken to clarify the connections between the experimental variables and the parameters of the KÃƒÂ¤rger equations.

AB - The use of NMR methods to quantitatively determine association/dissociation constants in biological and chemical systems (eg, drug binding/protein-ligand interactions) is long established. Among these, NMR diffusion-based techniques are increasingly prominent. In this article, the KÃƒÂ¤rger equations, used for analyzing NMR diffusion-based measurements of exchange, are derived from first principles and then solved in detail for the case of a two-site freely diffusing system under simplifying assumptions that the chemical shift and the relaxation in both sites are the same. Care is taken to clarify the connections between the experimental variables and the parameters of the KÃƒÂ¤rger equations.

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KW - nuclear magnetic resonance

UR - http://handle.westernsydney.edu.au:8081/1959.7/uws:51772

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DO - 10.1002/cmr.a.21468

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VL - 47A

JO - Concepts in Magnetic Resonance. Part A

JF - Concepts in Magnetic Resonance. Part A

IS - 2

M1 - e21468

ER -

A complete derivation of the KÃ¤rger equations for analyzing NMR diffusion measurements of exchanging systems

Abstract

Keywords

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