Biological membranes are composed of different components and there is no a priori reason to assume that all components are isotropic. It was previously sho'/>
机译:肌动蛋白长丝外力在具有各向异性膜组分的封闭膜形状形成管状突起中的作用
Laboratory of Biophysics Faculty of Electrical Engineering University of Ljubljana;
Institute of Physical Chemistry Polish Academy of Sciences;
Department of Physics Faculty of Natural Sciences and Mathematics University of Maribor;
Laboratory of Biophysics Faculty of Electrical Engineering University of Ljubljana;
Laboratory of Biophysics Faculty of Electrical Engineering University of Ljubljana;
Laboratory of Clinical Biophysics Faculty of Health Sciences University of Ljubljana;
Laboratory of Biophysics Faculty of Electrical Engineering University of Ljubljana;
Numerical study; Biological membranes; Vesicles; Anisotropic membrane components; Membrane tubular protrusions; Actin cytoskeleton;
机译:肌动蛋白长丝外力在具有各向异性膜组分的封闭膜形状形成管状突起中的作用
机译:曲率引起的各向异性膜成分的积累和圆柱膜突起中筏的形成
机译:管状越多:肌动蛋白丝动态成束用于膜管形成
机译:核膜蛋白emerin:基因调控中的作用,肌动蛋白动态和人类疾病
机译:膜近端F-肌动蛋白作为细胞极性的主调节器,信号动态和迁移过程中的突起
机译:管状越多:肌动蛋白丝动态捆绑成膜管。
机译:细胞突起的形成和组织:肌动蛋白丝和细胞膜之间的联系。