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How proteins open fusion pores: insights from molecular simulations

Herre Jelger Risselada, Helmut Grubmüller

2020European Biophysics Journal29 citationsDOIOpen Access PDF

Abstract

Fusion proteins can play a versatile and involved role during all stages of the fusion reaction. Their roles go far beyond forcing the opposing membranes into close proximity to drive stalk formation and fusion. Molecular simulations have played a central role in providing a molecular understanding of how fusion proteins actively overcome the free energy barriers of the fusion reaction up to the expansion of the fusion pore. Unexpectedly, molecular simulations have revealed a preference of the biological fusion reaction to proceed through asymmetric pathways resulting in the formation of, e.g., a stalk-hole complex, rim-pore, or vertex pore. Force-field based molecular simulations are now able to directly resolve the minimum free-energy path in protein-mediated fusion as well as quantifying the free energies of formed reaction intermediates. Ongoing developments in Graphics Processing Units (GPUs), free energy calculations, and coarse-grained force-fields will soon gain additional insights into the diverse roles of fusion proteins.

Topics & Concepts

FusionMolecular dynamicsFusion proteinForce field (fiction)Lipid bilayer fusionChemical physicsNanotechnologyNuclear fusionFusion powerChemistryBiophysicsMaterials scienceComputational chemistryPhysicsBiologyBiochemistryPlasmaRecombinant DNAGeneLinguisticsPhilosophyQuantum mechanicsProtein Structure and DynamicsForce Microscopy Techniques and ApplicationsLipid Membrane Structure and Behavior
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