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Membrane Structure and Function Ch 12, Stryer Short Course.

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1 Membrane Structure and Function Ch 12, Stryer Short Course

2 Introduction to Membranes Lipid structure makes a bilayer Hydrophobic effect Non-covalent structure Fluidity of membrane: liquid crystal Fluidity controlled by cholesterol, tail packing

3 Fluidity Transverse vs lateral diffusion Bleaching experiment Fluid Mosaic Model

4 Extremophiles Archea: branched tails, ether linkages Increased range of temperature Stable to hydrolysis Stable to oxidation

5 Permeability Membrane impermeable to ions (water shell) Mainly impermeable to larger polar molecules Water can flow slowly

6 Introduction to Membrane Proteins Proteins carry out membrane function Diversity of membranes based on protein content Types of proteins Integral proteins Peripheral proteins Anchored proteins

7 Integral Proteins Common motifs 7-transmembrane helix  -barrel

8 Anchored proteins Reversible Anchoring directs proteins to membrane Patholgy Cancer Hutchinson- Guilford Progeria syndrome

9 Effect of Aspirin Arachidonate from membrane, travels through cavity in Prostaglandin H 2 synthase Aspirin covalently modifies Serine in cyclooxygenase active site COX-1 and COX-2 inhibitors

10 Transporter Proteins Thermodynamic gradients Concentration gradient Ion gradient Pumps, channels, transporters Diffusion Simple diffusion Facilitated diffusion (passive transport) Active Transport

11 Sodium-Potassium ATPase Up to a third of ATP is used to create ion gradient Maintain structure and function of cell ATP phosphorylates the pump Change in conformation used to drive sodium/potassium exchange

12 Mechanism Digitalis blocks dephosphorylation, leading to low sodium ion gradient. This changes the calcium ion gradient, making the heart beat harder.

13 ABC transporters ATP-binding cassette domain Large superfamily includes Multidrug Resistance Pump Cystic Fibrosis Transmembrane Regulator ATP-regulated chloride channel Mutation causes less fluid/salt to be pumped out of cell

14 Secondary Transport Use energy of active transport to make a gradient This gradient drives active transport of another compound

15 Facilitated transport: K+ channel Channels can allow specific compounds to transverse the membrane rapidly Nerve Impulse Controlled systems Voltage gated Ligand gated mechanicoselective

16 Structure explains specificity How do you block a smaller sodium ion from going through a hole that fits a larger potassium ion? Make up for desolvation with strong binding

17 Structure explains speed Four binding sites in the narrow channel Repulsion of neighboring ions pushes potassium through

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