semipermeable membrane

Examples of semipermeable membrane in the following topics:

• Osmosis

  • Osmosis is the movement of water through a semipermeable membrane according to the concentration gradient of water across the membrane, which is inversely proportional to the concentration of solutes.
  • Semipermeable membranes, also termed selectively permeable membranes or partially permeable membranes, allow certain molecules or ions to pass through by diffusion.
  • While diffusion transports materials across membranes and within cells, osmosis transports only water across a membrane.
  • The semipermeable membrane limits the diffusion of solutes in the water.
  • Imagine a beaker with a semipermeable membrane separating the two sides or halves.

• Selective Permeability

  • Plasma membranes are asymmetric: the interior of the membrane is not identical to the exterior of the membrane.
  • On the interior of the membrane, some proteins serve to anchor the membrane to fibers of the cytoskeleton.
  • Polar substances present problems for the membrane.
  • This interactive shows that smaller molecules have an easier time making it across a semipermeable membrane.
  • The exterior surface of the plasma membrane is not identical to the interior surface of the same membrane.

• The Plasma Membrane and the Cytoplasm

  • Despite differences in structure and function, all living cells in multicellular organisms have a surrounding plasma membrane (also known as the cell membrane).
  • Cholesterol, also present, contributes to the fluidity of the membrane.
  • This structure causes the membrane to be selectively permeable.
  • Osmosis is the diffusion of water through a semipermeable membrane down its concentration gradient.
  • Explain the structure and purpose of the plasma membrane of a cell

• Phospholipids

  • Phospholipids are amphipathic molecules that make up the bilayer of the plasma membrane and keep the membrane fluid.
  • Phospholipids are major components of the plasma membrane, the outermost layer of animal cells.
  • The cell membrane consists of two adjacent layers of phospholipids, which form a bilayer.
  • Because of the phospholipds' chemical and physical characteristics, the lipid bilayer acts as a semipermeable membrane; only lipophilic solutes can easily pass the phospholipd bilayer.
  • As a result, there are two distinct aqueous compartments on each side of the membrane.

• Water and Solute Potential

  • In this example with a semipermeable membrane between two aqueous systems, water will move from a region of higher to lower water potential until equilibrium is reached.

• Membrane Fluidity

  • The mosaic nature of the membrane, its phospholipid chemistry, and the presence of cholesterol contribute to membrane fluidity.
  • There are multiple factors that lead to membrane fluidity .
  • First, the mosaic characteristic of the membrane helps the plasma membrane remain fluid.
  • It lies alongside the phospholipids in the membrane and tends to dampen the effects of temperature on the membrane.
  • Explain the function of membrane fluidity in the structure of cells

• Components of Plasma Membranes

  • The plasma membrane protects the cell from its external environment, mediates cellular transport, and transmits cellular signals.
  • The plasma membrane (also known as the cell membrane or cytoplasmic membrane) is a biological membrane that separates the interior of a cell from its outside environment.
  • The primary function of the plasma membrane is to protect the cell from its surroundings.
  • The membrane also maintains the cell potential.
  • The cell employs a number of transport mechanisms that involve biological membranes:

• Fluid Mosaic Model

  • Nicolson in 1972 to explain the structure of the plasma membrane.
  • Plasma membranes range from 5 to 10 nm in thickness.
  • Proteins make up the second major component of plasma membranes.
  • The fluid mosaic model of the plasma membrane describes the plasma membrane as a fluid combination of phospholipids, cholesterol, and proteins.
  • Integral membrane proteins may have one or more alpha-helices that span the membrane (examples 1 and 2), or they may have beta-sheets that span the membrane (example 3).

• Molecules in Biological Membranes

• Transport of Electrolytes across Cell Membranes

  • Water passes through semi-permeable membranes by passive diffusion, moving along a concentration gradient and equalizing the concentration on either side of the membrane.
  • Electrolyte ions may not be able to passively diffuse across a membrane, but may instead require special mechanisms to cross the semi-permeable membrane.
  • The mechanisms that transport ions across membranes are facilitated diffusion and active transport.
  • Paul Andersen describes how cells move materials across the cell membrane.
  • Explain the relationship between osmotic pressure and the transport of electrolytes across cell membranes