Cell Transport FA Learning Goal: Predict movement of molecules through the cell membrane given environmental or cell conditions and describe its affect.

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Presentation transcript:

Cell Transport FA Learning Goal: Predict movement of molecules through the cell membrane given environmental or cell conditions and describe its affect on a cell. 1

Tutorials on cell transport Passive transport Tutorial on diffusion, facilitated diffusion, and active transport hill.com/sites/ /student_view0/chapter2/animation__how_facilitated_diffusion _works.html hill.com/sites/ /student_view0/chapter2/animation__how_osmosis_works.ht ml hill.com/sites/ /student_view0/chapter2/animation__how_the_sodium_potas sium_pump_works.html hill.com/olcweb/cgi/pluginpop.cgi?it=swf::535::535::/sites/dl/free/ /120068/bio0 2.swf::Endocytosis%20and%20Exocytosis 2

1 What is diffusion? A. Transport of water DOWN its concentration gradient B. Transport of solute DOWN its concentration gradient C. Transport of solute UP its concentration gradient D. Transport of water UP its concentration gradient 3

2 Pick the following statement that best describes facilitated diffusion. A. Movement of water UP its concentration gradient B. Using energy to move a solute DOWN its concentration gradient C. Movement of solute DOWN its concentration gradient through a protein channel D. Moving DOWN its concentration gradient by passing through spaces between phospholipid molecules 4

3. How is active transport different from passive transport? A. Active transport pumps solutes DOWN their concentration gradient B. Passive transport does NOT require cell energy, but active transport DOES require cell energy C. Passive transport pumps water UP its concentration gradient D. Active transport does NOT require cell energy, but passive transport DOES require cell energy 5

4. True or False. Large polar substances & ions (like Ca2+) cannot move through a cell’s plasma membrane unless they move through a carrier protein because the interior of the membrane is nonpolar. A. True B. False 6

5 When the concentration of solute is lower in the solution bathing a cell than inside the cell’s cytoplasm, environment the solution is _______. A. Hypertonic B. Isotonic C. Hypotonic D. Aquatonic 7

Explanation for # 5 Why are solute & water concentrations INVERSELY related? Assume the volume of solution surrounding the cell & the volume of the cytoplasm are equal. Count water molecules outside the cell_____ & & inside the cell_____. Solute takes up space, leaving less room for water molecules! If you consider movement of water, is the direction of movement passive—from higher to lower water concentration? ____ 8

6 When the concentration of the solute is the same on the outside of the cell as it is inside the cell the solution is A. Hypertonic B. Isotonic C. Hypertonic D. Aquatonic 9

 Iso- means equal (like in an iso-lateral triangle, two sides have equal length)  Is the concentration of water inside the cytoplasm the same as the concentration of water outside the cell when solute concentrations are equal in both? Yes! Assume the total volume of the solution outside the cell is equal to that of the cytoplasm. Count the solute molecules inside the cell_____ outside the cell____. Count the number of water molecules inside the cell_____ Outside the cell_____ 10

7 In which direction will the net movement of water be in the following example? A. Into the cell B. Out of the cell C. equal amounts move into and out of the cell 10 % solute 20% solute 80% H 2 O 90% H 2 O 11

8 What type of solution is in the environment of the cell? A. Hypotonic B. Isotonic C. Hypertonic D. Aquatonic 30 % solute 10% solute 90% H 2 O 70% H 2 O 12

9 What is the type of environment for this cell? A. Hypotonic B. Isotonic C. Hypertonic % water 20% solute 80% H 2 O 25% solute 13

10. What will be the net direction of water movement? A. Into the cell B. Out of the cell C. Equal movement into & out of the cell 30 % solute 10% solute 90% H 2 O 70% H 2 O 14

11 What type of environment is shown? A. Hypertonic B. Isotonic C. Hypotonic D. Aquatonic 25 % solute 20% solute 80% H 2 O 75% H 2 O 15

Extra The cytoplasm in the cell is A. hypertonic B. hypotonic C. isotonic D. aquatonic 60% H 2 O 16

Extra What type solution is the cell in? A. Hypertonic B. Hypotonic C. Isotonic D. aquatonic 60% solute 40% solute 17

12 What process explains the passive movement of water across a semi-permeable membrane? A. Osmosis B. Diffusion C. Active transport D. Facilitated Diffusion 18

13 Red blood cells & other animal cells which don’t have a cell wall burst if they are in what type of a solution? Small dots are water molecules; larger dots are solute. A. Hypertonic B. Isotonic C. Hypotonic D. Aquatonic 19 ? ? ? ? ? ? ? ?

20 Equal water and solute concentration in/out; the same amount of water enters & exits because the cell is already at concentration equilibrium. Higher water and less solute inside versus lower water & higher solute outside—water moves down its concentration gradient (high to low) Lower water and higher solute inside cell versus higher water & lower solute outside—water moves down its concentration gradient (high to low)

Why don’t plant cells burst after lots of rain makes the soil hypotonic compared to the cell cytoplasm? A. Plant cells have aquaporin channels B. Plant cells have cell walls C. Plant cells have cell membranes 21

 The cell wall of plants presses inwards so that the cell doesn’t take on enough water to burst. 22

Why do plants die by plasmolysis (plasma membrane breaking) near salted highways and sidewalks? A. They burst by taking in too much water from hypotonic soil B. They release so much water to the hypertonic soil that their membranes shrink & break 23

If the cell loses most of the water stored in its large central vacuole, so little pressure is exerted on the cell membrane that it collapses inwards. This tears the cell membrane since it was attached to the cell wall, killing the cell. Plasmo- plasma membrane - lysis - break up 24