Litcius/Paper detail

Room for improvement in the initial martini 3 parameterization of peptide interactions

J. Karl Spinti, Fernando Neiva Nunes, Manuel N. Melo

2023Chemical Physics Letters39 citationsDOIOpen Access PDF

Abstract

The Martini 3 coarse-grain force field has greatly improved upon its predecessor, having already been successfully employed in several applications. Here, we gauge the accuracy of Martini 2 and 3 protein interactions in two types of systems: coiled coil peptide dimers in water and transmembrane peptides. Coiled coil dimers form incorrectly under Martini 2 and not at all under Martini 3. With transmembrane peptides, Martini 3 represents better the membrane thickness–peptide tilt relationship, but shorter peptides do not remain transmembranar. We discuss related observations, and describe mitigation strategies involving either scaling interactions or restraining the system.

Topics & Concepts

PeptideRandom coilScalingTransmembrane proteinTilt (camera)Electromagnetic coilMembraneChemistryBiophysicsChemical physicsPhysicsCrystallographyNanotechnologyMaterials scienceBiologyBiochemistryMathematicsGeometryCircular dichroismReceptorQuantum mechanicsLipid Membrane Structure and BehaviorRNA and protein synthesis mechanismsCellular transport and secretion