Paramagnetic DOSY: An Accurate Tool for the Analysis of the Supramolecular Interactions between Lanthanide Complexes and Proteins

Diffusion ordered NMR is implemented to determine accurately the mobility of paramagnetic tris‐dipicolinate lanthanide complexes that are versatile probes of protein structure. It is shown that diffusion coefficient ratios can be measured with an accuracy of 1 % using a standard BPPLED pulse sequenc...

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Bibliographic Details
Published in:Chemistry : a European journal 2016-12, Vol.22 (50), p.18123-18131
Main Authors: Denis-Quanquin, Sandrine, Riobé, François, Delsuc, Marc-André, Maury, Olivier, Giraud, Nicolas
Format: Article
Language:English
Subjects:
Affinity
Chemical Sciences
Chemistry
Diffusion
Diffusion coefficient
diffusion-ordered NMR
Inorganic chemistry
Lanthanides
Material chemistry
Nuclear magnetic resonance
Organic chemistry
paramagnetism
protein
Proteins
supramolecular chemistry
Titration
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Summary:Diffusion ordered NMR is implemented to determine accurately the mobility of paramagnetic tris‐dipicolinate lanthanide complexes that are versatile probes of protein structure. It is shown that diffusion coefficient ratios can be measured with an accuracy of 1 % using a standard BPPLED pulse sequence, which allows for observing significant, though weak, variations when different species are interacting with the paramagnetic compound. We demonstrate that this approach is complementary to classical chemical shift titration experiments, and that it can be applied successfully to probe the supramolecular dynamic interactions between lanthanide complexes and small molecules on the one hand, or to determine rapidly their affinity for a targeted protein. Precision with diffusion: The implementation of diffusion‐ordered NMR techniques to accurately determine the mobility of paramagnetic tris‐dipicolinate lanthanide complexes is reported. The observed diffusion coefficients can be used to efficiently probe their affinity for a wide range of molecules ranging from small model compounds to proteins.
ISSN:0947-6539
1521-3765
DOI:10.1002/chem.201603460