1. Cell Organelles

2. Cell Membrane Controls chemical traffic in and out of the cell Selectively Permeable 8 nm thick

3. What is Selective Permeability? Allows some substances to cross more easily than others Why must it be selective?

4. Why Must Cells Allow Some Substances to Pass Across the Membrane? To maintain HOMEOSTASIS = –the tendency to maintain stability in an organism amid environmental change –(ability to adjust to changes) –--------------------------------------------------------- –*cells must be able to receive info, move water molecules, food particles, & ions across the membrane

5. Membrane Structure Synthesized in ER sugars added in ER & Golgi

6. Cell Membrane Synthesis AP Bio Book Reference

7. Membrane Structure (Con’d) Lipid Bilayer (2 layers of phospholipids) layer #1 layer #2

8. The Phospholipid hydrophilic (water loving) polar heads hydrophobic (water fearing) nonpolar tail

9. Phospholipid Bilayer Polar head - attracted to H 2 O (hydrophilic) Nonpolar tails - push away or repel H 2 O (hydrophobic) ----------------------------------------------------- In order to best interact w/ H 2 O inside & outside of cell, membrane forms 2 layers of phospholipids hydrophobic interactions hold membrane together

11. What is allowed to easily pass through? 1) Nonpolar (hydrophobic) molecules dissolve easily in membrane -hydrocarbons (molecules with C & H) -oxygen -(smaller molecules move faster)

12. What can easily pass through? 2) Polar (hydrophilic) uncharged molecules - water, carbon dioxide

13. What can easily pass through? 3) Small, polar molecules - pass easilly between membrane lipids

14. What cannot pass through easily? Ions & large polar molecules -do not easily pass thru membrane hydrophobic area

15. Fluid Mosaic Model 1) Lipid Bilayer -tough but flexible 2) Transport (channel or carrier) Proteins 3) Receptor Proteins 4) Marker Proteins http://www.virtualcell.com/

16. Lipid Bilayer (con’d) 1) Stops large polar molecules -cannot pass thru NONPOLAR tails -thus, membrane serves as protective BARRIER

17. Lipid Bilayer (con’d) 2) is FLUID -not rigid -phospholipid & proteins can move laterally (rarely flip)

18. Membrane Fluidity Dependent on composition -unsaturated vs. saturated fatty acid tails -cholesterol

20. Transport Proteins Look like doughnuts in membrane surface allow many impt. molecules & ions to cross specific for substances they transport or translocate like locked doors - will only let some thru

21. Transport (Carrier) Proteins Can be carrier proteins which do not extend all the way thru the membrane

22. How Carrier Proteins Work Carrier Proteins bond and drag molecule thru bilayer and release on other side

23. Transport (Channel) Proteins Can be channel proteins that span the length of the membrane

24. How Channel Proteins Work Molecules randomly move through by a process called diffusion

25. Physical Structure of Transport Proteins -unilateral: embedded partway thru membrane -transmembrane: completely span membrane

26. Types of Transport Proteins 1) uniport: carries single solute 2) symport: -translocates 2 different solutes -move simultaneously in same direction 3) antiport: –exchanges 2 solutes –transports molecules in opposite directions – ex: (Na/K pump)

27. Receptor Proteins Shaped like boulders in membrane convey info to inside of cell (communication) -hormones special shape holds only certain type of molecule

28. How Receptor Proteins Work * when molecule of right shape fits receptor protein, it causes a change at other end of receptor, triggering response in cell

29. Receptor Proteins

30. Marker Proteins Look like trees sticking out of membrane Have carbohydrates on surface “Name Tags” of cells Different for every individual

31. Marker Proteins

32. Cell-Cell Recognition Based on recognition of cell surface macromolecules oligosaccharides are probably important cell recognition markers - vary! glycolipids -sugars covalently linked to lipids glycoproteins -sugars covalently linked to proteins N-linked = asparagine O-linked = serine, threonine

33. How can proteins which can be polar fit into nonpolar region of membrane? Proteins made of amino acids Of 20 aa, some polar & some nonpolar Some aa can attract neighboring aa folding, twisting unique function

34. Protein Variation Allows for channel proteins - embed themselves in membrane receptor proteins marker proteins