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Lipids

This article discusses the biomedical importance of lipids, including their role as dietary constituents, energy sources, and components of cell membranes. It also explores the classification of lipids, such as simple lipids, complex lipids, and precursor and derived lipids. Additionally, it covers the significance of unsaturated fatty acids, phospholipids, glycolipids, and steroids in physiological processes and disease development. The text language is English.

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Lipids

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  1. Lipids Lipids of Physiologic Significance

  2. BIOMEDICAL IMPORTANCE • The lipids • The common property • insoluble in water • soluble in nonpolarsolvents • They are important dietary constituents • high energy value • fat-soluble vitamins • essential fatty acids • Fat is stored in adipose tissue

  3. BIOMEDICAL IMPORTANCE • Thermal insulator • electrical insulators • cellular constituents • Membranes • Transport • Lipoproteins • Lipid biochemistry is necessary • obesity, diabetes mellitus, atherosclerosis, polyunsaturated fatty acids in nutrition and health

  4. Classification • Simple lipids • Esters of fatty acids with various alcohols • Complex lipids • groups in addition to an alcohol and a fatty acid • Phospholipids • Glycerophospholipids • Sphingophospholipids • Glycolipids • Other complex lipids • Sulfolipids and aminolipids • Lipoproteins

  5. Classification • Precursor and derived lipids • Neutral lipids • acylglycerols (glycerides),cholesterol, and cholesteryl esters

  6. Free fatty • Free fatty acids • Saturated • -anoic • Unsaturated • -enoic • 1,2,3,… • α, β, γ ,… ω or n carbons • Δ

  7. Saturated fatty acids

  8. Unsaturated Fatty Acids • Monounsaturated • Polyunsaturated • Eicosanoids • eicosa- (20-carbon) polyenoic fatty acids • Prostanoids • Prostaglandins(PGs) • Prostacyclins (PGIs) • Thromboxanes (TXs) • Leukotrienes (LTs) • Lipoxins (LXs)

  9. Prostaglandins • The number of double bonds • PG1, PG2, PG3 • Different substituent groups (on ring) • A, B,C,etc

  10. The leukotrienes andlipoxins • Lipoxygenase pathway • three or four conjugated double bonds • Leukotrienes cause bronchoconstriction as well as being potent proinflammatoryagents and play a part in asthma

  11. Unsaturated Fatty Acids • Geometric isomerism • Cis • on the same side • Trans • if on opposite sides • as a by-product of the saturation of fatty acids • ingestion of ruminant fat • Significance • Molecular packing in membranes

  12. Unsaturated fatty acids of physiologic and nutritional significance

  13. Structure of some unsaturated fatty acids

  14. Physical and Physiologic Propertiesof Fatty Acids • Chain Length and Degree of Unsaturation • even-numbered-carbon fatty acids • The melting points

  15. TRIACYLGLYCEROLS (TRIGLYCERIDES) • THE MAIN STORAGE FORMS OF FATTY ACIDS • Mono- and diacylglycerols

  16. PHOSPHOLIPIDS • MAIN LIPID CONSTITUENTS OF MEMBRANES • derivatives of phosphatidic acid • Phosphatidylcholines (Lecithins) • the most abundant phospholipids of the cell membrane • represent a large proportion of the body’s store of choline

  17. PHOSPHOLIPIDS • Surfactant • Dipalmitoyl lecithin • respiratory distress syndrome • Phosphatidylethanolamine (cephalin) • Phosphatidylserine • Phosphatidylinositol • Cardiolipin

  18. Lysophospholipids

  19. Phospholipids • Plasmalogens

  20. Sphingomyelins

  21. GLYCOLIPIDS • GLYCOSPHINGOLIPIDS • NERVE TISSUES • CELL MEMBRANE • Galactosylceramide • Sulfatide • Sulfogalactosylceramide • Glucosylceramide • Glycosphingolipid of extraneural tissues

  22. Simple glycosphingolipids • Complex glycosphingolipids • Gangliosides • Sialic acid • The simplest ganglioside found in tissues is GM3 • Functions • Receptor, …

  23. STEROIDS • Cholesterol • Atherosclerosis • As Precursor • Sterol • Has one or more hydroxylgroups and no carbonyl orcarboxyl groups

  24. Stereoisomers • “Chair” or a “boat” form • The rings can be either cis or trans • β bonds • above the plane of the rings • α bonds • bonds attaching groups below

  25. an all-trans configuration between adjacent rings

  26. a cis configuration between rings A and B

  27. Cholesterol • Cholesteryl ester

  28. Ergosterol • Precursor of Vitamin D

  29. Polyprenoids • Synthesized from five-carbon isoprene units • Include • Ubiquinone • Dolichol • Vitamins • A, D, E, and K, and β-carotene (provitamin A)

  30. LIPID PEROXIDATION • A SOURCE OF FREE RADICALS • Lipids exposed to oxygen • deterioration of foods (rancidity) • damage to tissues • Cancer, inflammatory diseases, atherosclerosis, and aging • Peroxide formation from fatty acids containing methylene-interrupted double bonds • Antioxidants • Vitamin E, Beta-carotene • Urate and vitamin C

  31. AMPHIPATHIC LIPIDS • Form • Membranes, Micelles, Liposomes, & Emulsions • Contain polar groups • Fatty acids, phospholipids, sphingolipids, bile salts, and, to a lesser extent, cholesterol • Part of the molecule is hydrophobic, and part is hydrophilic

  32. Micelles • When a critical concentration of these lipids is present in an aqueous medium • Facilitating absorption of lipids • Liposomes • Formed by sonicating an amphipathic lipid in an aqueous medium • as carriers of drugs

  33. Emulsions • Much larger particles

  34. Waxes • Serve as • Energy Stores and Water Repellents • Esters of long-chain (C14 to C36) saturated and unsaturated fatty acids with long-chain (C16 to C30) alcohols • Their melting points (60 to 100 °C) are generally higher than those of triacylglycerols

  35. Triacontanoylpalmitate, the major component of beeswax

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