1. Membrane Transport Lion Den Slide Collection By Kevin Patton User Manual Click each slide to advance it

2. Passive Transport Requires no metabolic energy provided by the cell

3. Solute Solvent HIGH concentration LOW concentration Concentration gradient SAME concentration SAME concentration Equilibrium Solution NET movement Diffusion reduces or eliminates a concentration gradient Diffusion reduces or eliminates a concentration gradient Collisions of particles spread the particles out Collisions of particles spread the particles out

4. HIGH concentration LOW concentration Concentration gradient Simple diffusion is passive movement of solutes through a membrane Simple diffusion is passive movement of solutes through a membrane

5. SAME concentration SAME concentration Equilibrium NET movement Net diffusion down the concentration gradient may result in equilibrium (a dynamic balance of concentration) Simple diffusion is passive movement of solutes through a membrane Simple diffusion is passive movement of solutes through a membrane

6. HIGH concentration LOW concentration Concentration gradient Channel

7. SAME concentration SAME concentration Equilibrium NET movement

8. Channel HIGH concentration LOW concentration Concentration gradient GATED channel GATED channel Channels are SPECIFIC Channels are SPECIFIC GATED channels GATED channels Channels FACILITATE diffusion

9. HIGH concentration LOW concentration Concentration gradient NO net movement Impermeant Solute Impermeant Solute Impermeant solutes cannot cross the membrane

10. Aquaporins are tiny channels that facilitate water movement

11. Impermeant Solute Impermeant Solute Water molecule LOW concentration HIGH concentration WATER gradient SAME concentration Osmosis is passive movement of water when solutes are impermeant Osmotic pressure builds up as water moves into cell

12. SAME concentration SAME concentration Equilibrium NET movement HIGH concentration LOW concentration Concentration gradient Carrier

13. Carriers FACILITATE diffusion HIGH concentration LOW concentration Concentration gradient

14. Carrier Carriers FACILITATE diffusion HIGH concentration LOW concentration Concentration gradient

15. HIGH concentration LOW concentration Concentration gradient Carrier Channel Channels & carriers FACILITATE diffusion

16. Active Transport Requires metabolic energy (in the form of ATP) provided by the cell

17. ATP ADP PiPi PiPi Pump Pumps are ACTIVE carriers Pumps are ACTIVE carriers LOW concentration HIGH concentration Concentration gradient

18. ATP ADP PiPi PiPi Pump Pumps are ACTIVE carriers Pumps are ACTIVE carriers LOW concentration HIGH concentration Concentration gradient Pumps create & maintain a concentration gradient Pumps create & maintain a concentration gradient

19. Vesicle-mediated transport Bulk transport of material Requires work by the cytoskeleton

20. Endocytosis moves material into the cell Endocytosis moves material into the cell

21. Endocytosis moves material into the cell Endocytosis moves material into the cell Cytoskeleton moves the plasma membrane Cytoskeleton moves the plasma membrane ATP ADP PiPi PiPi

22. Cytoskeleton moves the plasma membrane Cytoskeleton moves the plasma membrane

23. Cytoskeleton moves the plasma membrane Cytoskeleton moves the plasma membrane

24. Vesicle forms as membrane folds inward Vesicle forms as membrane folds inward

25. Vesicle forms as membrane folds inward Vesicle forms as membrane folds inward

26. Vesicle forms as membrane folds inward Vesicle forms as membrane folds inward Vesicle forms as membrane folds inward and is pulled inward by the cytoskeleton Vesicle forms as membrane folds inward and is pulled inward by the cytoskeleton

27. Pinocytosis moves fluids into the cell Pinocytosis moves fluids into the cell ATP ADP PiPi PiPi

28. Pinocytosis moves fluids into the cell Pinocytosis moves fluids into the cell

29. Pinocytosis moves fluids into the cell Pinocytosis moves fluids into the cell

30. Pinocytosis moves fluids into the cell Pinocytosis moves fluids into the cell

31. Pinocytosis moves fluids into the cell Pinocytosis moves fluids into the cell

32. Pinocytosis moves fluids into the cell Pinocytosis moves fluids into the cell

33. Phagocytosis moves solids into the cell Phagocytosis moves solids into the cell

34. Phagocytosis moves solids into the cell Phagocytosis moves solids into the cell ATP ADP PiPi PiPi

35. Phagocytosis moves solids into the cell Phagocytosis moves solids into the cell

36. Phagocytosis moves solids into the cell Phagocytosis moves solids into the cell

37. Phagocytosis moves solids into the cell Phagocytosis moves solids into the cell

38. Phagocytosis moves solids into the cell Phagocytosis moves solids into the cell

39. Phagocytosis moves solids into the cell Phagocytosis moves solids into the cell

40. Exocytosis moves material out of the cell Exocytosis moves material out of the cell ATP ADP PiPi PiPi

41. Exocytosis moves material out of the cell Exocytosis moves material out of the cell

42. Exocytosis moves material out of the cell Exocytosis moves material out of the cell

43. Exocytosis moves material out of the cell Exocytosis moves material out of the cell

44. Exocytosis moves material out of the cell Exocytosis moves material out of the cell

45. Exocytosis moves material out of the cell Exocytosis moves material out of the cell

46. Exocytosis moves material out of the cell Exocytosis moves material out of the cell