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High resolution ensemble description of metamorphic and intrinsically disordered proteins using an efficient hybrid parallel tempering scheme

Rajeswari Appadurai, Jayashree Nagesh, Anand Srivastava

2021Nature Communications85 citationsDOIOpen Access PDF

Abstract

Mapping free energy landscapes of complex multi-funneled metamorphic proteins and weakly-funneled intrinsically disordered proteins (IDPs) remains challenging. While rare-event sampling molecular dynamics simulations can be useful, they often need to either impose restraints or reweigh the generated data to match experiments. Here, we present a parallel-tempering method that takes advantage of accelerated water dynamics and allows efficient and accurate conformational sampling across a wide variety of proteins. We demonstrate the improved sampling efficiency by benchmarking against standard model systems such as alanine di-peptide, TRP-cage and β-hairpin. The method successfully scales to large metamorphic proteins such as RFA-H and to highly disordered IDPs such as Histatin-5. Across the diverse proteins, the calculated ensemble averages match well with the NMR, SAXS and other biophysical experiments without the need to reweigh. By allowing accurate sampling across different landscapes, the method opens doors for sampling free energy landscape of complex uncharted proteins.

Topics & Concepts

Intrinsically disordered proteinsParallel temperingMolecular dynamicsEnergy landscapeSampling (signal processing)Computer scienceUmbrella samplingBiological systemComputational biologyPhysicsBiophysicsChemistryBiologyArtificial intelligenceComputational chemistryBayesian probabilityMarkov chain Monte CarloDetectorTelecommunicationsMonte Carlo molecular modelingThermodynamicsProtein Structure and DynamicsMass Spectrometry Techniques and ApplicationsAdvanced NMR Techniques and Applications