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The Plasma Membrane -

The Plasma Membrane -. Gateway to the Cell. Photograph of a Cell Membrane. Cell Membrane. The cell membrane is flexible and allows a unicellular organism to move. Homeostasis. Balanced internal condition of cells Also called equilibrium

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The Plasma Membrane -

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  1. The Plasma Membrane - Gateway to the Cell

  2. Photograph of a Cell Membrane

  3. Cell Membrane The cell membrane is flexible and allows a unicellular organism to move

  4. Homeostasis • Balanced internal condition of cells • Also called equilibrium • Maintained by plasma membrane controlling what enters & leaves the cell

  5. Functions of Plasma Membrane • Protective barrier • Regulate transport in & out of cell (selectively permeable) • Allow cell recognition • Provide anchoring sites for filaments of cytoskeleton

  6. Functions of Plasma Membrane • Provide a binding site for enzymes • Interlocking surfaces bind cells together (junctions) • Contains the cytoplasm (fluid in cell)

  7. Structure of the Cell Membrane

  8. Membrane Components Proteins (3 main types) Phospholipids Cholesterol Carbohydrates (glucose)

  9. Phospholipids Make up the cell membrane Contains 2 fatty acid chains that are nonpolar Head is polar & contains a –PO4 group & glycerol

  10. FLUID MOSAIC MODEL FLUID- because individual phospholipids and proteins can move around freely within the layer, like it’s a liquid. MOSAIC- because of the pattern produced by the scattered protein molecules when the membrane is viewed from above.

  11. Cell Membrane Polar heads are hydrophilic “water loving” Nonpolar tails are hydrophobic “water fearing” Makes membrane “Selective” in what crosses

  12. Cell Membrane The cell membrane is made of 2 layers of phospholipids called the lipid bilayer Hydrophobic molecules pass easily; hydrophilic DO NOT

  13. Solubility • Materials that are soluble in lipids can pass through the cell membrane easily

  14. Semipermeable Membrane Small molecules and larger hydrophobic molecules move through easily. e.g. O2, CO2, H2O

  15. Semipermeable Membrane Ions, hydrophilic molecules larger than water, and large molecules such as proteinsdo not move through the membrane on their own.

  16. Types of Transport Across Cell Membranes

  17. Simple Diffusion • Requires NO energy • Molecules move from area of HIGH to LOW concentration

  18. DIFFUSION Diffusion is a PASSIVE process which means no energy is used to make the molecules move, they have a natural KINETIC ENERGY

  19. Diffusion of Liquids

  20. Diffusion through a Membrane Cell membrane Solute moves DOWN concentration gradient (HIGH to LOW)

  21. Osmosis Diffusion across a membrane • Diffusion of wateracross a membrane • Moves fromHIGH water potential(low solute) toLOW water potential(high solute) Semipermeable membrane

  22. Diffusion of H2O Across A Membrane High H2O potentialLow solute concentration Low H2O potentialHigh solute concentration

  23. Aquaporins • Water Channels • Protein pores used during OSMOSIS WATERMOLECULES

  24. Cell in Isotonic Solution 10% NaCL90% H2O ENVIRONMENT CELL NO NET MOVEMENT 10% NaCL 90% H2O What is the direction of water movement? equilibrium The cell is at _______________.

  25. Cell in Hypotonic Solution 10% NaCL90% H2O CELL 20% NaCL 80% H2O What is the direction of water movement?

  26. Cell in Hypertonic Solution 15% NaCL85% H2O ENVIRONMENT CELL 5% NaCL 95% H2O What is the direction of water movement?

  27. Cells in Solutions

  28. Isotonic Solution Hypotonic Solution Hypertonic Solution NO NET MOVEMENT OF H2O (equal amounts entering & leaving) CYTOLYSIS PLASMOLYSIS

  29. Cytolysis & Plasmolysis Plasmolysis Cytolysis

  30. Osmosis in Red Blood Cells Isotonic Hypertonic Hypotonic

  31. isotonic hypotonic hypertonic hypertonic isotonic hypotonic

  32. Three Forms of Transport Across the Membrane

  33. Passive Transport • Simple Diffusion • Doesn’t require energy • Moves high to low concentration • Example: Oxygen or water diffusing into a cell and carbon dioxide diffusing out.

  34. Passive Transport • Facilitated diffusion • Doesn’t require energy • Uses transport proteins to move high to low concentration • Examples: Glucose or amino acids moving from blood into a cell.

  35. Proteins Are Critical to Membrane Function

  36. Types of Transport Proteins • Channel proteins are embedded in the cell membrane & have a pore for materials to cross • Carrier proteins can change shape to move material from one side of the membrane to the other

  37. Facilitated Diffusion Molecules will randomly move through the pores in Channel Proteins.

  38. Facilitated Diffusion • Some Carrier proteins do not extend through the membrane. • They bond and drag molecules through the lipid bilayer and release them on the opposite side.

  39. Carrier Proteins • Other carrier proteins change shape to move materials across the cell membrane

  40. Active Transport • Requires energy or ATP • Moves materials from LOW to HIGH concentration • AGAINST concentration gradient

  41. Active transport • Examples: Pumping Na+ (sodium ions) out and K+ (potassium ions) in against strong concentration gradients. • Called Na+-K+ Pump

  42. Sodium-Potassium Pump http://msjensen.cehd.umn.edu/1135/Links/animations/Flash/0004-swf_the_sodium-pot.swf 3 Na+ pumped in for every 2 K+ pumped out; creates a membrane potential

  43. Moving the “Big Stuff” Exocytosis- moving things out. Molecules are moved out of the cell by vesicles that fuse with the plasma membrane. This is how many hormones are secreted and how nerve cells communicate with one another.

  44. Exocytosis Exocytic vesicle immediately after fusion with plasma membrane.

  45. Moving the “Big Stuff” Large molecules move materials into the cell by one of three forms of endocytosis.

  46. Pinocytosis Most common form of endocytosis. Takes in dissolved molecules as a vesicle.

  47. Pinocytosis • Cell forms an invagination • Materials dissolve in water to be brought into cell • Called “Cell Drinking”

  48. Example of Pinocytosis mature transport vesicle pinocytic vesicles forming Transport across a capillary cell (blue).

  49. Receptor-Mediated Endocytosis Some integral proteins have receptors on their surface to recognize & take in hormones, cholesterol, etc.

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