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Protein Electrostatics Investigated through Paramagnetic NMR for Nonpolar Groups

Binhan Yu, Channing C. Pletka, Junji Iwahara

2022The Journal of Physical Chemistry B23 citationsDOIOpen Access PDF

Abstract

Experimental validation of theoretical models for protein electrostatics remains rare. Recently, we have developed a paramagnetic NMR-based method for de novo determination of effective near-surface electrostatic potentials, which allows for straightforward examination of electrostatic models for biomolecules. In the current work, we expand this method and demonstrate that effective near-surface electrostatic potentials can readily be determined from 1H paramagnetic relaxation enhancement (PRE) data for protein CαH and CH3 groups. The experimental data were compared with those predicted from the Poisson–Boltzmann theory. The impact of structural dynamics on the effective near-surface electrostatic potentials was also assessed. The agreement between the experimental and theoretical data was particularly good for methyl 1H nuclei. Compared to the conventional pKa-based validation, our paramagnetic NMR-based approach can provide a far larger number of experimental data that can directly be used to examine the validity of theoretical electrostatic models for proteins.

Topics & Concepts

ElectrostaticsParamagnetismChemistryChemical physicsElectrostatic interactionNuclear magnetic resonanceMaterials sciencePhysicsPhysical chemistryCondensed matter physicsProtein Structure and DynamicsEnzyme Structure and FunctionAdvanced NMR Techniques and Applications