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Membrane and Transport Notes

Membrane and Transport Notes. Review: Prokaryotic vs. Eukaryotic. Structure – lipids, proteins, and carbohydrates in a fluid mosaic model 1. Lipid – phospholipid . Plasma membrane – thin flexible selectively permeable bilayer. 2. Proteins – embedded in the phospholipid bilayer

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Membrane and Transport Notes

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  1. Membrane and Transport Notes

  2. Review: Prokaryotic vs. Eukaryotic

  3. Structure – lipids, proteins, and carbohydrates in a fluid mosaic model 1. Lipid – phospholipid Plasma membrane – thin flexible selectively permeable bilayer

  4. 2. Proteins– embedded in the phospholipid bilayer Enzymes Cell recognition Cell signaling Transport

  5. 3. Carbohydrates – attached to embedded proteins or phospholipids Cell recognition Cell adhesion

  6. There are two main types of transport across a membrane • Passive • Active

  7. Passive Transport • the movement of molecules across a membrane without the use of energy (ATP)

  8. Molecules move down a concentration gradient (from a high conc. to a low conc.) Simple diffusion Facilitated diffusion Osmosis Diffusion

  9. The passage of large or charged molecules down a concentration gradient through a carrier protein Large or charged molecules can not pass through the membrane so they must pass through a carrier protein to get inside or out Facilitated diffusion

  10. Active Transport • When a cell expends energy to move molecules or ions across a membrane • Usually occurs from low to high (opposite)

  11. Hypertonic – the solution with a higher concentration of solute compared to the cell in it Hypotonic – the solution with a lower concentration of solute compared to the cell in it Isotonic – solutions in which the concentration of solute are equal to the cell in it Solutions are referred to as one of the following:

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