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Lipids

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Chapter 8 Lipids Biochemistry by Reginald Garrett and Charles Grisham Essential Question What is the structure, chemistry, and biological function of lipids? – PowerPoint PPT presentation

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Title: Lipids


1
Chapter 8
  • Lipids
  • Biochemistry
  • by
  • Reginald Garrett and Charles Grisham

2
Essential Question
  • What is the structure, chemistry, and biological
    function of lipids?
  • Lipids low solubility in water and high
    solubility in nonpolar solvents.
  • The hydrophobic nature of lipids allows membranes
    to act as effective barriers to more polar
    molecules.

3
Outline
  • What Is the Structure and Chemistry of Fatty
    Acids?
  • What Is the Structure and Chemistry of
    Triacylglycerols?
  • What is the Structure and Chemistry of
    Glycerophospholipids?
  • What Are Sphingolipids, and How Are They
    Important for Higher Animals?
  • What Are Waxes, and How Are They Used?
  • What Are Terpenes, and What Is Their Relevance to
    Biological Systems?
  • What Are Steriods, and What Are Their Cellular
    Functions?

4
Classes of Lipids
  • All biological lipids are amphipathic (containing
    both polar and nonpolar groups).
  • Fatty acids
  • Triacylglycerols
  • Glycerophospholipids
  • Sphingolipids
  • Waxes
  • Isoprene-based lipids (including steroids)

5
8.1 - Fatty acids
  • Know the common names and structures for fatty
    acids up to 20 carbons long
  • Saturated
  • Lauric acid (12 C)
  • Myristic acid (14 C)
  • Palmitic acid (16 C)
  • Stearic acid (18 C)
  • Arachidic acid (20 C)

6
Fatty acids - II
  • Unsaturated fatty acids
  • Palmitoleic acid (161)
  • Oleic acid (181)
  • Linoleic acid (182)
  • ?-Linolenic acid (183)
  • ?-Linolenic acid (183)
  • Arachidonic acid (204)

7
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8
Fatty acids - III
  • Structural consequences of unsaturation
  • Saturated chains pack tightly and form more
    rigid, organized aggregates (i.e., membranes)
  • Unsaturated chains bend and pack in a less
    ordered way, with greater potential for motion

9
Fatty acids in Food saturated vs.
unsaturated Fatty acid compositions of some
dietary lipids
Source Lauric Myristic
Palmitic Stearic Oleic Linoleic Beef
5 24-32 20-25 37-43 2-3 Milk 25
12 33 3 Coconut 74 10 2
7 Corn 8-12 3-4 19-49
34-62 Olive 9 2 84
4 Palm 39 4 40
8 Safflower 6 3 13
78 Soybean 9 6 20
52 Sunflower 6 1 21 66
10
8.2 - Triacylglycerols
  • Also called triglycerides
  • A major energy source for many organisms
  • Why?
  • Most reduced form of carbon in nature
  • No solvation needed
  • Efficient packing

11
Triacylglycerols - II
  • Other advantages accrue to users of
    triacylglycerols
  • Insulation
  • Energy without nitrogen
  • Metabolic water

12
8.3 - Glycerophospholipids
  • Glycerophospholipids are phospholipids but not
    necessarily vice versa.
  • Know the names and structures in Figure 8.6
  • Understand the prochirality of glycerol
  • Remember that, if phospholipid contains
    unsaturation, it is at the 2-position.

13
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14
Ether Glycerophospholipids
  • An ether instead of an acyl group at C-1
  • Figure 8.8

1-alkyl 2-acyl-phosphatidylethanolamine (an
ether glycerophospholipid)
15
Ether Glycerophospholipids
  • Platelet activating factor (PAF) is an ether
    glycerophospholipid.
  • PAF is a potent biochemical signal molecule
  • Note the short (acetate) fatty acyl chain at the
    C-2 position in PAF.
  • PAF is much more water soluble, functions as a
    soluble messenger in signal transduction.

Figure 8.9 1-alkyl 2-acyl-phosphatidylcholine
(PAF)
16
8.4 Sphingolipids ?????
  • Base structure is sphingosine.
  • Sphingosine is an 18-carbon amino alcohol.
  • Ceramides are amide linkages of fatty acids to
    the nitrogen of sphingosine.
  • Glycosphingolipids are ceramides with one or more
    sugars in beta-glycosidic linkage at the
    1-hydroxyl group.

17
Sphingolipids
  • Base structure is sphingosine.
  • Sphingosine is an 18-carbon amino alcohol.
  • Ceramides (????) are amide linkages of fatty
    acids to the nitrogen of sphingosine.
  • Glycosphingolipids are ceramides with one or more
    sugars in beta-glycosidic linkage at the
    1-hydroxyl group.

Figure 8.11  Formation of an amide linkage
between a fatty acid and sphingosine produces a
ceramide.
18
  • Sphingolipids
  • Backbone of sphingosine 18-carbon amino alcohol
    with C-C trans double bond
  • ? Ceramide sphingosine with fatty acid in amide
    linkage
  • ? Sphingomyelins alcohol esterified to
    phosphoceramide
  • Choline
  • Ethanolamine
  • Glycosphingolipids ceramide with sugars in
    ?-glycosidic linkage
  • Cerebroside Sugar is glucose or galactose.
  • Sulfatide Sugar is galactose with sulfate
    esterified at carbon 3 of galactose.
  • Gangliosides ceramide with three or more
    sugars
  • including sialic acid

19
8.5 - Waxes
  • Esters of long-chain alcohols with long-chain
    fatty acids
  • Highly insoluble
  • Animal skin and fur are wax-coated
  • Leaves of many plants
  • Bird feathers

20
8.5 Waxes
  • Esters of long-chain alcohols with long-chain
    fatty acids
  • highly insoluble
  • Animal skin and fur are
  • wax-coated .
  • leaves of many plants
  • bird feathers

Figure 8.15 An example of a wax. Oleoyl alcohol
is esterified to stearic acid in this case.
21
8.6 - Terpenes
  • Based on the isoprene structure
  • Know nomenclature
  • Understand linkage modes (Figure 8.16)
  • See structures in Figure 8.17
  • All sterols (including cholesterol) are
    terpene-based molecules.
  • Steroid hormones are terpene-based.

22
8.6 Terpenes
  • Based on the isoprene structure
  • Know nomenclature
  • All sterols (including cholesterol) are
    terpene-based molecules.
  • Steroid hormones are terpene-based.

Figure 8.16
23
8.7 - Steroids
  • Based on a core structure consisting of three
    6-membered rings and one 5-membered ring, all
    fused together.
  • Cholesterol is the most common steroid in animals
    and precursor for all other steroids in animals.
  • Steroid hormones serve many functions in animals
    - including salt balance, metabolic function and
    sexual function.

24
An A-B cis steroid
25
Figure 8.19 The structure of cholesterol, shown
with steroid ring designations and carbon
numbering.
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