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Preferential Interactions of a Crowder Protein with the Specific Binding Site of a Native Protein Complex

Dong Xu, Ling-Yun Qin, Zhou Gong, Sanbo Qin, Huan‐Xiang Zhou, Chun Tang

2022The Journal of Physical Chemistry Letters21 citationsDOIOpen Access PDF

Abstract

, yet direct quantitative evidence, let alone residue-specific information, is scarce. Here we present nuclear magnetic resonance (NMR) characterization showing that bovine serum albumin weakly but preferentially interacts with the histidine carrier protein (HPr). Notably, the binding interface overlaps with that for HPr's specific partner protein, EIN, leading to competition. The crowder protein thus decreases the EIN-HPr binding affinity and accelerates the dissociation of the native complex. In contrast, Ficoll-70 stabilizes the native complex and slows its dissociation, as one would expect from excluded-volume and microviscosity effects. Our atomistic modeling of macromolecular crowding rationalizes the experimental data and provides quantitative insights into the energetics of protein-crowder interactions. The integrated NMR and modeling study yields benchmarks for the effects of crowded cellular environments on protein-protein specific interactions, with implications for evolution regarding how nonspecific binding can be minimized or exploited.

Topics & Concepts

Macromolecular crowdingMicroviscosityChemistryBiophysicsPlasma protein bindingBinding siteProtein–protein interactionHistidineMacromoleculeBiochemistryBiologyAmino acidMembraneProtein Structure and DynamicsHemoglobin structure and functionProtein Interaction Studies and Fluorescence Analysis
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