Active Transport, Endocytosis, Exocytosis Key ConCept Cells use energy to transport materials that cannot diffuse across a membrane. proteins can transport materials against a concentration gradient. You have seen that the cell membrane controls the passive transport of materials into and out of a cell. However, cells often need large amounts of materials that cannot diffuse across the membrane. Cells can use energy to move molecules from an area of lower con- centration to an area of higher concentration. This process is called active transport. As the figure shows, active transport uses energy to drive molecules through transport proteins. This process plays an important role in helping cells to maintain homeostasis. What is the difference between active transport and passive transport? endocytosis and exocytosis transport materials across the membrane in vesicles. Sometimes a material is too large to cross the membrane. Cells can use energy to transport these materials in vesicles. A cell uses endocytosis to take in large materials or liquids. The prefix endo- means “in.” In endo- cytosis, the cell membrane starts to fold in, forming a pocket around a substance. The pocket breaks off inside the cell, making a vesicle. The contents of the vesicle are then broken down or released into the cell. Phagocytosis (fag-uh-sy-TOH-sihs) is a type of endocytosis in which the cell membrane grows out to surround large particles. The word literally means “cell eating.” Phagocytosis plays an important role in the immune system when white blood cells “eat” bacteria and other invaders. The pocket pinches off inside the cell, forming a vesicle. The cell membrane folds inward, enclosing the substance in a pocket. The vesicle fuses with a lysosome, where enzymes break it down. 3 1 2 section 3.5 During active transport, a cell uses energy to move substances against a concentration gradient—that is, from a lower to a higher concen- tration. outside inside energy Interactive Reader 49