| Author/Editor | Iglič, A; Svetina, S; Žekš, B | |
| Title | Depletion of membrane skeleton in red blood cell vesicles | |
| Type | članek | |
| Source | Biophys J | |
| Vol. and No. | Letnik 69, št. 1 | |
| Publication year | 1995 | |
| Volume | str. 274-9 | |
| Language | eng | |
| Abstract | A possible physical interpretation of the partial detachment of the membrane skeleton in the budding region of the cell membrane and consequent depletion of the membrane skeleton in red blood cell vesicles is given. The red blood cell membrane is considered to consist of the bilayer part and the membrane skeleton. The skeleton is, under normal conditions, bound to the bilayer over its whole area. It is shown that, when in such conditions it is in the expanded state, some cell shape changes can induce its partial detachment. The partial detachment of the skeleton from the bilayer is energetically favorable if the consequent decrease of the skeleton expansion energy is larger than the corresponding increase of the bilayer-skeleton binding energy. The effect of shape on the skeleton detachment is analyzed theoretically for a series of the pear class shapes, having decreasing neck diameter and ending with a parent-daughter pair of spheres. The partial detachment of the skeleton is promoted by narrowing of the cell neck, by increasing the lateral tension in the skeleton and its area expansivity modulus, and by diminishing the attraction forces between the skeleton and the bilayer. If the radius of the daughter vesicle is sufficiently small relative to the radius of the parent cell, the daughter vesicle can exist either completely underlaid with the skeleton or completely depleted of the skeleton. | |
| Descriptors | ERYTHROCYTE MEMBRANE ERYTHROCYTES ORGANELLES LIPID BILAYERS MATHEMATICS MODELS, STRUCTURAL |