1 / 45

Chapter 5. Membranes: transport processes - membranes that line body cavities

Chapter 5. Membranes: transport processes - membranes that line body cavities - ***the cell membrane. Membranes in the body line a body cavity or are between two compartments. Why have a cell membrane? - isolate the cell  cytosol (intracellular fluid) from extracellular fluid

ladonnak
Download Presentation

Chapter 5. Membranes: transport processes - membranes that line body cavities

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Chapter 5. Membranes: transport processes - membranes that line body cavities - ***the cell membrane

  2. Membranes in the body line a body cavity or are between two compartments.

  3. Why have a cell membrane? - isolate the cell  cytosol (intracellular fluid) from extracellular fluid - regulate exchange with the environment  ions, nutrients, wastes, secretions - cell communicates with the environment  eg. receptor proteins bind signaling molecules - structural support  cellular junctions, anchor cytoskeletal proteins

  4. What are the components of the cell membrane and what are their functions?

  5. What are the components of the cell membrane and what are their functions?

  6. Lots of phospholipids.

  7. Integral mb proteins are tightly associated to mb (eg. membrane spanning). Associated protein is loosely bound to mb (eg. enzymes, some structural).

  8. An example of a membrane spanning protein.

  9. Functions of membrane proteins: 1. Structural proteins (junctions, cytoskeleton) 3. Receptors – bind a signaling molecule (ligand) 2. Enzymes – reactions cell membrane (digestion, signaling) 4. Transporters - channels - water filled pore - carrier proteins - bind molecule to be carried across

  10. 1. Structural proteins:junctions Functions of membrane proteins:

  11. 1. Structural proteins: cytoskeleton Functions of membrane proteins:

  12. 2. Cell membrane receptor protein 3. Enzymes Functions of membrane proteins:

  13. 3. Channel proteins are gated.

  14. Gating of a channel protein:

  15. How are the channels gated (opened)?Voltage gated, chemically gated, mechanically gated.

  16. 4. Facilitated diffusion by a carrier protein: - never a continuous pore

  17. Facilitated diffusion by a carrier protein:

  18. How can lipids enter a cell?

  19. How can glucose enter a cell?

  20. Facilitated diffusion by a carrier protein: G G G

  21. How can calcium (Ca++) enter a cell?

  22. Calcium enters through a calcium channel Ca++

  23. How does insulin bind onto a cell?

  24. Insulin receptor protein Insulin Insulin

  25. What molecules cross the cell membrane?How do these molecules cross the cell membrane? *

  26. The phospholipd bilayer is permeable to gases, water and lipids.

  27. Gases, water and lipids can pass through the cell mb.These diffuse through the mb. *

  28. Characteristics of diffusion:*molecules are always moving** • Down a concentration gradient • Diffusion rate depends on the steepness of the concentration gradient • Kinetic energy from molecules that are moving • Eventually the molecules distribute themselves evenly (equilibrium). • Molecules diffuse short distances quickly.

  29. Characteristics of diffusion: • Diffusion is directly related to temperature • Diffusion is inversely related to molecular size • Diffusion can occur in an open system • Diffusion can occur across a barrier if the molecule can cross the barrier

  30. Diffusion rate of lipophilic molecules across the cell mb(phospholipid bilayer) • Diffusion rate depends of solubility in lipid layer • Diffusion rate depends on the surface area of the cell mb. • Faster diffusion with thinner mb (short distance to cross)

  31. Ions diffuse through channels down their concentration gradient. Ca++ Ca++ Ca++

  32. How do the rules of diffusion apply to movement by carrier proteins?

  33. Carrier mediated transport into cells:- net movement as long as there is a concentration gradient across the mb  Facilitated Diffusion Diffusion and carrier proteins

  34. Carrier mediated transport into cells:Specificity • Eg. Glucose transporters move 6 carbon sugars (hexoses).

  35. Carrier mediated transport into cells:Specificity • Glucose transporters will not move maltose.

  36. Carrier mediated transport into cells:Competition • 6 carbon sugars bind to the glucose carrier • The carrier has a higher affinity for glucose than for fructose or galactose • Glucose moves into the cell faster than the others

  37. Carrier mediated transport into cells:Competition Only galactose Glucose and galactose

  38. Carrier mediated transport into cells:Competition • A competing molecule can block the transport

  39. Carrier mediated transport into cellsSaturation • Carriers transporting a substrate reach their maximal rate. Diffusion and carrier proteins

  40. Carrier mediated transport into cellsSaturation

  41. Cells need glucose as a source of ATP for energy. How can I get my glucose?

More Related