Cell Membrane Selectively Permeable
Basic Structure Double layer of phospholipids Referred to a bilayer A phospholipid has a head and two tails The phospholipids face away from each other in the bilayer
Phospholipids Phosphate “heads” are water-soluble They like water and are attracted to water Fatty acid “tails” are not soluble in water They repel water and want to stay away from it
Permeability Small molecules that dissolve in lipids can pass right through the phospholipid bilayer Oxygen, carbon dioxide and some water can also pass through
Permeability Glucose, amino acids, and other large molecules that do not dissolve in lipids cannot pass through Most water molecules, and ions such as H+, NA+, K+, and Ca+ cannot pass through
Some molecules need help We use proteins embedded in the membrane to help get these molecules across the cell membrane
Phospholipid bilayer plus Notice that there are many structures stuck in the phospholipid bilayer
Proteins scattered throughout
A Gallery of Membrane Proteins Adhesion proteins: Help cells of the same type stick together in tissues Cell to cell communication proteins: match up with another cell to pass on a signal
A Gallery of Membrane Proteins Receptor proteins: stick out of the membrane to bind hormones. Recognition proteins: Identify each person’s cells as their own Must be matched in transplants, blood transfusions, etc.
A Gallery of Membrane Proteins Passive Transporter proteins: allow molecules to move through them without requiring energy Active transporters: use energy to pump molecules “uphill” across the membrane
Transport Across Cell Membranes Passive or Active
Movement Is either passive or active Passive does not require cell energy Active uses cell energy
Passive Mechanisms of Transport Diffusion: molecules spread or scatter from regions of higher concentration toward regions of lower concentration Molecules will travel down the concentration gradient
Passive Mechanisms of Transport Facilitated Diffusion: molecules cannot pass through the lipid bilayer without the help of a membrane protein. The molecule being transported combines with a carrier molecule which moves it to other side
Passive Mechanisms of Transport Osmosis: the diffusion of water. Water moves from a region of higher concentration to a region of lower concentration In this example, the membrane is NOT permeable to the solute
Passive Mechanisms of Transport Filtration: forces molecules through membranes Often used to separate solids from liquids Kidneys filter blood, the force coming from blood pressure
Active Mechanisms of Transport Active transport: uses energy and carrier proteins to move molecules from areas of LOW concentration to areas of HIGH concentration Against the concentration gradient; a pump
Active Mechanisms of Transport Endocytosis: uses cellular energy to form a vesicle from a section of cell membrane to bring IN substances Exocytosis: uses energy to secrete a substance stored in a vesicle