Redirected from Plasma membrane
The basic composition and structure of the plasma membrane is the same as that of the membranes that surround organelles and other subcellular compartments. The foundation is a lipid bilayer, and the membrane as a whole is often described as a 'fluid mosaic' - a two-dimensional fluid of freely diffusing lipids, dotted or embedded with proteins. Some of these proteins simply adhere to the membrane (extrinsic), while others might be said to reside within it or to span it (intrinsic -- see integral membrane protein). Glycoproteins are proteins with carbohydrates that are attached to extracellular domains. Cells may vary the variety and particular mix of lipid species in their cell membrane to maintain its fluidity under changes in temperature. Cholesterol molecules in the bilayer assist in the maintenance of fluidity.
In fact, not all lipid molecules in the cell membrane are "liquid" or free to diffuse. Lipid rafts[?] and caveolae are examples of more rigid membrane regions. The membrane is undergirded, furthermore, by the membrane cytoskeleton[?], to which many integral membrane proteins are anchored. This anchoring serves to restrict membrane proteins to a particular cell face or surface (for example, the "apical" surface of epithelial cells[?] that line the vertebrate gut) and constrains protein's motion within the bilayer. Finally, rather than presenting always a gentle and haphazard contor, the plasma membrane surface of many cells can be dense with orderly involutions. The resulting finger-like projections ("microvilli") increase cell surface area and facilitate the absorption of molecules from the outside.
Depending on the molecule, transportation occurs by different mechanisms, which can be separated into those that do not consume ATP energy (passive transport) and those that do (active transport):
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