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MEMBRANE STRUCTURE AND FUNCTION CHAPTER 7 1. WHAT YOU MUST KNOW: Why membranes are selectively permeable. The role of phospholipids, proteins, and carbohydrates.

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Presentation on theme: "MEMBRANE STRUCTURE AND FUNCTION CHAPTER 7 1. WHAT YOU MUST KNOW: Why membranes are selectively permeable. The role of phospholipids, proteins, and carbohydrates."— Presentation transcript:

1 MEMBRANE STRUCTURE AND FUNCTION CHAPTER 7 1

2 WHAT YOU MUST KNOW: Why membranes are selectively permeable. The role of phospholipids, proteins, and carbohydrates in membranes. How water will move if a cell is placed in an isotonic, hypertonic, or hypotonic solution. How electrochemical gradients are formed. 2

3 CELL MEMBRANE A.Plasma membrane is selectively permeable Allows some substances to cross more easily than others B.Fluid Mosaic Model Fluid : membrane held together by weak interactions Mosaic : phospholipids, proteins, carbs 3

4 EARLY MEMBRANE MODEL (1935) Davson/Danielli – Sandwich model phospholipid bilayer between 2 protein layers Problems: varying chemical composition of membrane, hydrophobic protein parts 4

5 THE FREEZE-FRACTURE METHOD: REVEALED THE STRUCTURE OF MEMBRANE’S INTERIOR 5

6 FLUID MOSAIC MODEL 6

7 7

8 PHOSPHOLIPIDS Bilayer Amphipathic = hydrophilic head, hydrophobic tail Hydrophobic barrier: keeps hydrophilic molecules out 8

9 MEMBRANE FLUIDITY Low temps : phospholipids w/unsaturated tails (kinks prevent close packing) Cholesterol resists changes by: limit fluidity at high temps hinder close packing at low temps Adaptations: bacteria in hot springs (unusual lipids); winter wheat (  unsaturated phospholipids) 9

10 MEMBRANE PROTEINS Integral Proteins Embedded in membrane Determined by freeze fracture Transmembrane with hydrophilic heads/tails and hydrophobic middles Peripheral Proteins Extracellular or cytoplasmic sides of membrane NOT embedded Held in place by the cytoskeleton or ECM Provides stronger framework 10

11 Integral & Peripheral proteins 11

12 TRANSMEMBRANE PROTEIN STRUCTURE Hydrophobic interior Hydrophilic ends 12

13 Some functions of membrane proteins 13

14 CARBOHYDRATES Function : cell-cell recognition; developing organisms Glycolipids, glycoproteins Eg. blood transfusions are type-specific 14

15 SYNTHESIS AND SIDEDNESS OF MEMBRANES 15

16 SELECTIVE PERMEABILITY Small molecules Small molecules (polar or nonpolar) cross easily (hydrocarbons, hydrophobic molecules, CO 2, O 2 ) ions, large polar molecules Hydrophobic core prevents passage of ions, large polar molecules 16

17 PASSIVE TRANSPORT NO ENERGY needed! concentration gradient Diffusion down concentration gradient (high  low concentration) Eg. hydrocarbons, CO 2, O 2, H 2 O 17

18 18

19 OSMOSIS : DIFFUSION OF H 2 O 19

20 EXTERNAL ENVIRONMENTS CAN BE HYPOTONIC, ISOTONIC OR HYPERTONIC TO INTERNAL ENVIRONMENTS OF CELL 20

21 OSMOREGULATION Control solute & water balance Contractile vacuole : “bilge pump” forces out fresh water as it enters by osmosis Eg. paramecium caudatum – freshwater protist 21

22 FACILITATED DIFFUSION Transport proteins Transport proteins (channel or carrier proteins) help hydrophilic substance cross  (1) Provide hydrophilic channel or (2) loosely bind/carry molecule across  Eg. ions, polar molecules (H 2 O, glucose) 22

23 AQUAPORIN : CHANNEL PROTEIN THAT ALLOWS PASSAGE OF H 2 O 23

24 GLUCOSE TRANSPORT PROTEIN (CARRIER PROTEIN) 24

25 ACTIVE TRANSPORT ENERGY Requires ENERGY (ATP) concentration gradient Proteins transport substances against concentration gradient (low  high conc.) Eg. Na + /K + pump, proton pump 25

26 ELECTROGENIC PUMPS : GENERATE VOLTAGE ACROSS MEMBRANE Na + /K + Pump Pump Na + out, K + into cell Nerve transmission Proton Pump Push protons (H + ) across membrane Eg. mitochondria (ATP production) 26

27 COTRANSPORT : MEMBRANE PROTEIN ENABLES “DOWNHILL” DIFFUSION OF ONE SOLUTE TO DRIVE “UPHILL” TRANSPORT OF OTHER Eg. sucrose-H + cotransporter (sugar-loading in plants) 27

28 PASSIVE VS. ACTIVE TRANSPORT Little or no Energy High  low concentrations DOWN the concentration gradient eg. diffusion, osmosis, facilitated diffusion (w/transport protein) Requires Energy (ATP) Low  high concentrations AGAINST the concentration gradient eg. pumps, exo/endocytosis 28

29 29

30 BULK TRANSPORT Transport of proteins, polysaccharides, large molecules Endocytosis: take in macromolecules, form new vesicles Exocytosis: vesicles fuse with cell membrane, expel contents 30

31 TYPES OF ENDOCYTOSIS Phagocytosis: “cellular eating” - solids Pinocytosis: “cellular drinking” - fluids Receptor-Mediated Endocytosis: Ligands bind to specific receptors on cell surface 31

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