1.Lipids; structure and function 2.CMC 3.Hydrophobic post-translational modifications 4.Membrane lipids 5.Lipid rafts 6.Caveolin 7.Passive diffusion vs.

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Presentation transcript:

1.Lipids; structure and function 2.CMC 3.Hydrophobic post-translational modifications 4.Membrane lipids 5.Lipid rafts 6.Caveolin 7.Passive diffusion vs. Active transport 8.ABC transporter 9.Bacteriorhodopsin 10.Membrane redistribution; Flippases, Floppases, and Scramblases CH9

9.1 What Are the Chemical and Physical Properties of Membranes? Lipids self-associate to form membranes because: – Water prefers polar interactions and prefers to self- associate with H bonds – The hydrophobic effect promotes self-association of lipids in water to maximize entropy These forces drive amphiphilic lipids to form membranes These forces also facilitate the association of proteins with membranes

The Composition of Membranes Suits Their Function Figure 9.2 The lipid composition of rat liver cell membranes, in weight percent.

9.1 What Are the Chemical and Physical Properties of Membranes? Lipids form ordered structures spontaneously in water Very few lipids exists as monomers Monolayers on the surface of water arrange lipid tails in the air Micelles bury the nonpolar tails in the center of a spherical structure Micelles reverse in nonpolar solvents The amphipathic molecules that form micelles are each characterized by a critical micelle concentration (CMC)

9.1 What Are the Chemical and Physical Properties of Membranes? Figure 9.3 Spontaneously formed lipid structures.

The Critical Micelle Concentrations of Detergents Vary Widely Figure 9.4 The structures of some common detergents and their physical properties.

9.2 What Are the Structure and Chemistry of Membrane Proteins? Singer and Nicolson defined two classes Integral (intrinsic) proteins Peripheral (extrinsic) proteins We'll note a new one - lipid-anchored proteins

Peripheral Membrane Proteins Associate Loosely with the Membrane Peripheral proteins are not strongly bound to the membrane – They may form ionic interactions and H bonds with polar lipid headgroups or with other proteins – Or they may interact with the nonpolar membrane core by inserting a hydrophobic loop or an amphiphilic α-helix They can be dissociated with mild detergent treatment or with high salt concentrations

Peripheral Membrane Proteins Associate Loosely with the Membrane Figure 9.8 Four possible modes for the binding of peripheral membrane proteins.

Integral Membrane Proteins Are Anchored Firmly in the Membrane Integral proteins are strongly embedded in the bilayer They can only be removed from the membrane by denaturing the membrane (organic solvents, or strong detergents) Often transmembrane but not necessarily Glycophorin, bacteriorhodopsin are examples

Bacteriorhodopsin is a Paradigm for Membrane Proteins with 7 Helical Segments Figure 9.13 Bacteriorhodopsin: Its seven transmembrane segments are connected by short loops. Note the light-absorbing retinal bound to a lysine residue.

Membrane Protein Topology Can Be Revealed by Hydropathy Plots Figure 9.14 Hydropathy plot for glycophorin.

Amide-Linked Myristoyl Anchors and Thioester-linked and Acyl Anchors Figure 9.23 Certain proteins are anchored to biological membranes by myristyl and thioester-linked anchors.

Thioether-linked Prenyl Anchors Figure 9.23 Certain proteins are anchored to membranes by prenyl anchors.

Glycosyl Phosphatidylinositol Anchors Figure 9.23 Certain proteins are anchored to membranes via glycosyl phosphatidylinositol anchors.

Flippases, Floppases, and Scramblases: Proteins That Redistribute Membrane Lipids Lipids can be moved from one monolayer to the other by flippase and floppase proteins Some flippases and floppases operate passively and do not require an energy source Others appear to operate actively and require the energy of hydrolysis of ATP Active (energy-requiring) flippases and floppases can generate membrane asymmetries

Flippases, Floppases, and Scramblases: Proteins That Redistribute Membrane Lipids ATP-dependent flippases move PS (and some PE) from the outer leaflet to the inner leaflet ATP-dependent floppases move amphiphilic lipids (including cholesterol, PC, and sphingomyelin) from the inner leaflet to the outer leaflet of the membrane Bidirectional scramblases (Ca2+-activated but ATP-independent) randomize lipids across the membrane and thus degrade membrane lipid asymmetry

The Evidence for Liquid Ordered Domains and Membrane Rafts Figure 9.28 (a) Model for a membrane raft. (b) Rafts are postulated to grow by accumulation of cholesterol, sphingolipids, and GPI-anchored proteins.

Caveolins and Caveolae Respond to Plasma Membrane Changes Figure 9.33 Caveolin possesses a central hydrophobic segment flanked by three covalently bound fatty acyl anchors on the C-terminal side and a scaffolding domain on the N-terminal side.