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Chapter 6

Chapter 6 Textbook Notes - Lipids, Membranes, and the First Cells

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University of Toronto Mississauga
Fiona Rawle

Notes From Reading CHAPTER 6:LIPIDS,M EMBRANES ,AND THE FIRSTCELLS PGS .99-124) Key Concepts - Phospholipids are amphipathic lipid molecules—they are part hydrophobic and part hydrophilic. Plasma membranes are made up of bilayers of phospholipids. These bilayers are selectively permeable. - Ions and molecules diffuse spontaneously from regions of higher concentration to regions of lower concentration—a process called diffusion. Movement of water across a plasma membrane is a special case of diffusion called osmosis. - In cells, membrane proteins are responsible for the passage across membranes of ions and large and/or polar molecules in the processes of facilitated diffusion and active transport. 6.1 Lipids What is a Lipid? - Lipids are carbon-containing compounds that are found in organisms and that are largely nonpolar and hydrophobic. - Hydrocarbons are molecules that contain only carbon and hydrogen. - Lipids have a major hydrocarbon component called a fatty acid. A fatty acid is a hydrocarbon chain bonded to a carboxyl (COOH) functional group. Hydrocarbons are the reason that lipids do not dissolve in water. Three Types of Lipids Found in Cells - Lipids are defined by solubility rather than by chemical structure, so their structures vary widely. - Three types of lipids are the most important found in cells: o Fats are composed of three fatty acids linked to glycerol. o Steroids are a family of lipids distinguished by a four-ring structure. One important steroid in mammals is cholesterol. o Phospholipids consist of a glycerol that is linked to a phosphate group (PO ) and to 4 either two chains of isoprene or two fatty acids. The Structure of Membrane Lipids - Membrane-forming lipids are amphipathic, containing both hydrophobic and hydrophilic regions. - For example, phospholipids are amphipathic. The “head” region contains highly polar covalent bonds, as well as positive and negative charges. Phospholipids also have a nonpolar fatty acid “tail” region. - When placed in solution, the phospholipid heads interact with water while the tails do not, allowing these lipids to form membranes. 6.2 Phospholipid Bilayers Notes From Reading CHAPTER 6:L IPID,M EMBRANES ,AND THE FIRST CELLS(PGS .99-124) - Phospholipid bilayers, or simply lipid bilayers, form when two sheets of phospholipid molecules align. The hydrophilic heads in each layer face a surrounding solution, while the hydrophobic tails face one another inside the bilayer. - Phospholipid bilayers form spontaneously, with no outside input of energy required. Selective Permeability of Lipid Bilayers - The permeability of a structure is its tendency to allow a given substance to pass across it. - Phospholipid bilayers have selective permeability. Small or nonpolar molecules move across phospholipid bilayers quickly, but charged or large polar substances cross slowly, if at all. Types of Lipids Affect Membrane Permeability Differently - When a double bond exists between two carbons in a hydrocarbon chain, the chain is said to be unsaturated. Hydrocarbon chains without double bonds are termed saturated. - A double bond in an unsaturated lipid causes a bend or “kink” in the hydrocarbon chain, preventing the close packing of hydrocarbon tails and reducing hydrophobic interactions. - Phospholipids with unsaturated tails form membranes that are much more permeable than those formed by phospholipids with saturated tails. Temperature Affects Membrane Fluidity and Permeability - Membrane fluidity decreases with temperature because molecules in the bilayer move more slowly. - Decreased membrane fluidity causes decreased permeability. 6.3 Why Molecules Move across Lipid Bilayers: Diffusion and Osmosis - Small molecules and ions in solution are called solutes. - The random movement of solutes due to kinetic energy is known as diffusion. - A difference in solute concentrations across a selectively permeable membrane creates a concentration gradient. - When a concentration gradient exists, there is a net movement of solutes from regions of high concentration across the membrane to regions o
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