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Transport through cell membranes

Transport through cell membranes. Are you covered in skin?. Are you REALLY covered in skin?. Why do you have openings in your skin?. Doesn’t work like this.

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Transport through cell membranes

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  1. Transport through cell membranes

  2. Are you covered in skin? Are you REALLY covered in skin? Why do you have openings in your skin?

  3. Doesn’t work like this

  4. Molecules are always, always, always, always, always, always, always, always, always, always, always, always, always, always, always, always, always, always, always, always, always, always moving. (So where are they going?)

  5. How do the molecules “know” how to spread out? Are they doing it on purpose? http://concord.org/stem-resources/diffusion-osmosis-and-active-transport

  6. Each individual molecule moves randomly, bumping into whatever is in its path. If all the molecules start out close together, what’s the likelihood of a molecule bumping its way out of the pack compared to randomly staying with everyone else?

  7. Formal Vocabulary • Molecules diffuse from areas of high concentration to areas of low concentration. • They move down a concentration gradient. • This is a passive process. (It happens on its own – we didn’t have to spend any energy to move things around.)

  8. So how do we get things in and out of cells? Can’t forget about that membrane made of phospholipids . . .

  9. Phospholipid tails hate water. But why?

  10. A quick review

  11. I’m a happy nonpolar molecule with equally shared electrons! Crap . . . Lesson: Nonpolar stuff (like lipid tails) hates water.

  12. But what if you’re not polar? O2 – both atoms are equally attractive to electrons CO2 – both sides are equally attractive to electrons

  13. Molecules that diffuse through cell membranes • Oxygen (O2) • Carbon dioxide (CO2) . . . That’s about it. • Everyone else needs a channel.

  14. Facilitated diffusion You need a channel if you’re . . . Charged (ion) Polar Big

  15. Your Very Own Channel! http://phet.colorado.edu/en/simulation/membrane-channels

  16. Water is curious . . .

  17. If there are other molecules dissolved in the water, not all of the water molecules are free to diffuse – some are too busy being attracted to the dissolved stuff.

  18. Osmosis • http://www.concord.org/~btinker/workbench_web/models/osmosis.swf

  19. Ooops . . .

  20. Red Blood Cells Shriveling

  21. Variations on a Theme

  22. Big Stuff • What if you want to take in something so large, it won’t fit through a channel? • What if you want to get rid of something so large, it won’t fit through a channel?

  23. Endocytosis

  24. Exocytosis AS Biology, Cell membranes and Transport

  25. It really does happen . . .

  26. The Grand Chase http://www.youtube.com/watch?v=JnlULOjUhSQ

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