Bio1151b Chapter 7 Membrane Structure and Function
  1. The plasma membrane is a "fluid mosaic" made of         with a mosaic of           embedded in it, and exhibits            permeability.
     
     
  2. Membranes contain amphipathic                , containing both hydrophobic and hydrophilic regions, and form a          , with embedded proteins.
     
     
  3.              molecules and small molecules like O2 can pass through the membrane by diffusion;        molecules and large molecules like glucose cannot.
     
     
  4.            (passive transport) is the tendency for molecules to spread out evenly down their                gradient.
     
     
  5.          is the diffusion of        across a                membrane, and is affected by the concentration gradient of dissolved substances, or          .
       
       
    • In           environments where solute concentration is the       as it is inside the cell, there is no net water movement.
       
       
    • In            environments where solute concentration is       than it is inside the cell, water tends to move         the cell.
       
       
    • In             environments where solute concentration is          than it is inside the cell, water tends to move          the cell.
       
       
    • Organisms without cell        must have adaptations for                 to maintain water balance in hypotonic and hypertonic environments.
       
       
    • Plant cells fare best in            environments.
     
     
  6.              diffusion is the movement of molecules across the membrane facilitated by            proteins,       the concentration gradient.
       
       
    •          proteins provide corridors that allow a specific molecule or ion to cross the membrane.
       
       
    •          proteins undergo a change in shape that translocates the solute-binding site across the membrane.
     
     
  7.         transport, such as sodium-potassium       , is the movement of molecules          their concentration gradient using energy, usually in the form of      .
     
     
    Review.
     
     
  8. Large proteins cross the membrane by       transport mechanisms.
     
     
  9. In              . The cell takes in macromolecules by forming new           from the plasma membrane via invagination.
       
       
    • In               (cell eating ), large particles are engulfed by               into a vacuole, and are digested in the           .
       
       
    • In              (cell drinking ), small droplets of fluid are "gulped" into           .
     
     
  10. In             , transport           migrate to the plasma membrane, fuse with it, and release their contents.