Litcius/Paper detail

Vesicle budding induced by binding of curvature-inducing proteins

Hiroshi Noguchi

2021Physical review. E18 citationsDOIOpen Access PDF

Abstract

Vesicle budding induced by protein binding that generates an isotropic spontaneous curvature is studied using a mean-field theory. Many spherical buds are formed via protein binding. As the binding chemical potential increases, the proteins first bind to the buds and then to the remainder of the vesicle. For a high spontaneous curvature and/or high bending rigidity of the bound membrane, it is found that a first-order transition occurs between a small number of large buds and a large number of small buds. These two states coexist around the transition point. The proposed scheme is simple and easily applicable to many interaction types, so we investigate the effects of interprotein interactions, the protein-insertion-induced changes in area, the variation of the saddle-splay modulus, and the area-difference-elasticity energy. The differences in the preferred curvatures for curvature sensing and generation are also clarified.

Topics & Concepts

CurvatureVesicleBuddingIsotropyBiophysicsFlexural rigidityChemistrySaddle pointSaddleRigidity (electromagnetism)Elasticity (physics)CrystallographyChemical physicsPhysicsMembraneGeometryBiologyCell biologyMathematicsBiochemistryOpticsThermodynamicsQuantum mechanicsMathematical optimizationLipid Membrane Structure and BehaviorCellular transport and secretionForce Microscopy Techniques and Applications