2. The cell membrane is the boundary that separates the living cell from its nonliving surroundings  The cell membrane exhibits selective permeability, allowing some substances to cross it more easily than others  Permeable: when a substance can penetrate a barrier or membrane

4.  Phospholipids are the most abundant molecule in the cell membrane  Phospholipids are molecules, containing hydrophobic and hydrophilic regions  The fluid mosaic model states that a membrane is a fluid structure with a “mosaic” of various proteins embedded in it

5. Hydrophilic head Hydrophobic tail WATER

6. Hydrophilic region of protein Hydrophobic region of protein Phospholipid bilayer

7.  The steroid cholesterol has different effects on membrane fluidity at different temperatures  At warm temperatures (such as 37°C), cholesterol restrains movement of phospholipids  At cool temperatures, it maintains fluidity by preventing tight packing Cholesterol Isn’t All Bad!

8. Cholesterol Cholesterol within the animal cell membrane

9.  Some proteins in the plasma membrane can drift within the bilayer  Proteins are much larger than lipids and move more slowly  To investigate whether membrane proteins move, researchers fused a mouse cell and a human cell

10. Membrane proteins Mixed proteins after 1 hour Hybrid cell Human cell Mouse cell

11. Fibers of extracellular matrix (ECM) Glycoprotein Carbohydrate Microfilaments of cytoskeleton Cholesterol Integral protein Peripheral proteins CYTOPLASMIC SIDE OF MEMBRANE EXTRACELLULAR SIDE OF MEMBRANE Glycolipid

12.  Six major functions of membrane proteins: › Transport › Enzymatic activity › Signal transduction › Cell-cell recognition › Intercellular joining › Attachment to the cytoskeleton and extracellular matrix (ECM)

13. Enzymes Signal Receptor ATP Transport Enzymatic activity Signal transduction Glyco- protein Cell-cell recognition Intercellular joining Attachment to the cytoskeleton and extra- cellular matrix (ECM)

14. Cells recognize each other by binding to surface molecules, often carbohydrates, on the plasma membrane  Carbohydrates on the external side of the plasma membrane vary among species, individuals, and even cell types in an individual

15.  A cell must exchange materials with its surroundings, a process controlled by the cell membrane  Cell membranes are selectively permeable, regulating the cell’s traffic

16.  Diffusion is the tendency for molecules to spread out evenly into the available space  Although each molecule moves randomly, diffusion of a population of molecules may exhibit a net movement in one direction  At dynamic equilibrium, as many molecules cross one way as cross in the other direction

17. Molecules of dyeMembrane (cross section) WATER Net diffusion Equilibrium Diffusion of one solute

18.  Concentration gradient: different in concentration between two substances (a slope of sorts)  Substances diffuse down their concentration gradient, the difference in concentration of a substance from one area to another  No work must be done to move substances down the concentration gradient  The diffusion of a substance across a biological membrane is passive transport because it requires no energy from the cell to make it happen

19. Net diffusion Equilibrium Diffusion of two solutes Net diffusion Equilibrium

20.  Osmosis is the diffusion of water across a selectively permeable membrane  The direction of osmosis is determined only by a difference in total concentration  Water diffuses across a membrane from the region of higher concentration to the region of lower concentration

21. Lower concentration of solute (sugar) Higher concentration of sugar Same concentration of sugar Selectively permeable mem- brane: sugar mole- cules cannot pass through pores, but water molecules can H2OH2O Osmosis

22. Animal cell Lysed H2OH2O H2OH2O H2OH2O Normal Hypotonic solution Isotonic solutionHypertonic solution H2OH2O Shriveled H2OH2O H2OH2O H2OH2O H2OH2O Plant cell Turgid (normal) FlaccidPlasmolyzed

23.  In facilitated diffusion, transport proteins speed movement of molecules across the plasma membrane  Channel proteins provide corridors that allow a specific molecule or ion to cross the membrane EXTRACELLULAR FLUID Channel protein Solute CYTOPLASM

24.  Facilitated diffusion is still passive because the solute moves down its concentration gradient  Some transport proteins, however, can move solutes against their concentration gradients

25.  Active transport moves substances against their concentration gradient  Active transport requires energy, in the form of ATP  Active transport is performed by specific proteins embedded in the membranes

26. Cytoplasmic Na + bonds to the sodium-potassium pump CYTOPLASM Na + [Na + ] low [K + ] high Na + EXTRACELLULAR FLUID [Na + ] high [K + ] low Na + ATP ADP P Na + binding stimulates phosphorylation by ATP. Na + K+K+ Phosphorylation causes the protein to change its conformation, expelling Na + to the outside. P Extracellular K + binds to the protein, triggering release of the phosphate group. P P Loss of the phosphate restores the protein’s original conformation. K + is released and Na + sites are receptive again; the cycle repeats. K+K+ K+K+ K+K+ K+K+ K+K+

27. Diffusion Facilitated diffusion Passive transport ATP Active transport

28.  In exocytosis, transport vesicles migrate to the membrane, fuse with it, and release their contents  Many secretory cells use exocytosis to export their products

29.  In endocytosis, the cell takes in macromolecules by forming vesicles from the plasma membrane  Endocytosis is a reversal of exocytosis, involving different proteins