Chemical Properties of Triglycerides

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Presentation transcript:

Chemical Properties of Triglycerides Lipids Types of Lipids Fatty Acids Fats, and Oils Chemical Properties of Triglycerides

Types of Lipids Lipids with fatty acids Waxes Fats and oils (trigycerides) Phospholipids Sphingolipids Lipids without fatty acids Steroids

Fatty Acids Long-chain carboxylic acids Insoluble in water Typically 12-18 carbon atoms (even number) Some contain double bonds corn oil contains 86% unsaturated fatty acids and 14% saturated fatty acids

Saturated and Unsaturated Fatty Acids Saturated = C–C bonds Unsaturated = one or more C=C bonds

Structures Saturated fatty acids Fit closely in regular pattern Unsaturated fatty acids Cis double bonds

Properties of Saturated Fatty Acids Contain only single C–C bonds Closely packed Strong attractions between chains High melting points Solids at room temperature

Properties of Unsaturated Fatty Acids Contain one or more double C=C bonds Nonlinear chains do not allow molecules to pack closely Few interactions between chains Low melting points Liquids at room temperature

Reactions of carboxyl group of fatty acids

Reactions of alkenyl chain of unsaturated fatty acids

Fats and Oils Formed from glycerol and fatty acids

Triglycerides (triacylglycerols) Esters of glycerol and fatty acids

Saponification and Soap Hydrolysis with a strong base Triglycerides split into glycerol and the salts of fatty acids The salts of fatty acids are “soaps” KOH gives softer soaps

Saponification