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Biochemistry by Mary Campbell

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insoluble in water, but soluble in aprotic organic solvents ... contain sphingosine, a long-chain aminoalcohol from which this class is named. 10. 10-16 ... – PowerPoint PPT presentation

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Title: Biochemistry by Mary Campbell


1
Biochemistry
2
Lipids and Membranes
3
Lipids
  • Lipids a heterogeneous class of naturally
    occurring organic compounds classified together
    on the basis of common solubility properties
  • insoluble in water, but soluble in aprotic
    organic solvents including diethyl ether,
    chloroform, methylene chloride, and acetone
  • Lipids include
  • fatty acids, triacylglycerols, sphingolipids,
    phosphoacylglycerols, glycolipids,
  • lipid-soluble vitamins
  • prostaglandins, leukotrienes, and thromboxanes
  • cholesterol, steroid hormones, and bile acids

4
Fatty Acids
  • Fatty acid an unbranched-chain carboxylic acid,
    most commonly of 12 - 20 carbons, derived from
    hydrolysis of animal fats, vegetable oils, or
    phosphodiacylglycerols of biological membranes
  • In the shorthand notation for fatty acids
  • the number of carbons and the number of double
    bonds in the chain are shown by two numbers,
    separated by a colon

5
Fatty Acids
6
Fatty Acids
  • Among the fatty acids most abundant in plants and
    animals
  • nearly all have an even number of carbon atoms,
    most between 12 and 20, in an unbranched chain
  • the three most abundant are palmitic (160),
    stearic (180), and oleic (181) acids
  • in most unsaturated fatty acids, the cis isomer
    predominates the trans isomer is rare
  • unsaturated fatty acids have lower melting points
    than their saturated counterparts the greater
    the degree of unsaturation, the lower the melting
    point

7
Triacylglycerols
  • Triacylglycerol (triglyceride) an ester of
    glycerol with three fatty acids
  • natural soaps are prepared by boiling
    triglycerides (animal fats or vegetable oils)
    with NaOH, in a reaction called saponification
    (Latin, sapo, soap)

8
Soaps
  • Soaps form water-insoluble salts when used in
    water containing Ca(II), Mg(II), and Fe(III) ions
    (hard water)

9
Phosphoacylglycerols
  • Phosphoacylglycerols (phosphoglycerides) are the
    second most abundant group of naturally occurring
    lipids
  • found almost exclusively in plant and animal
    membranes, which typically consist of 40 -50
    phosphoacylglycerols and 50 - 60 proteins
  • the most abundant phosphoacylglycerols are
    derived from phosphatidic acid, a molecule in
    which glycerol is esterified with two molecules
    of fatty acid and one of phosphoric acid
  • the three most abundant fatty acids in
    phosphatidic acids are palmitic (160), stearic
    (180), and oleic (181)

10
Phosphoacylglycerols
  • A phosphatidic acid
  • further esterification with a low-molecular-weight
    alcohol gives a phosphoacylglycerol
  • the most common of these low-molecular-weight
    alcohols are

11
Phosphoacylglycerols
12
Phosphoacylglycerols
13
Phosphoacylglycerols
  • A lecithin

14
Waxes
  • An ester of a long-chain fatty acid and alcohol
  • from the Old English word weax honeycomb

15
Sphingolipids
  • contain sphingosine, a long-chain aminoalcohol
    from which this class is named

16
Glycolipids
  • Glycolipid a compound in which a carbohydrate is
    bound to an -OH of the lipid
  • many glycolipids are derived from ceramides

17
Steroids
  • Steroids a group of plant and animal lipids that
    have this tetracyclic ring structure

18
Steroids
  • The features common to the ring system of most
    naturally occurring steroids are illustrated here

19
Androgens
  • Androgens male sex hormones
  • synthesized in the testes
  • responsible for the development of male secondary
    sex characteristics

20
Estrogens
  • Estrogens female sex hormones
  • synthesized in the ovaries
  • responsible for the development of female
    secondary sex characteristics and control of the
    menstrual cycle

21
Cholesterol
  • The steroid of most interest in our discussion of
    biological membranes is cholesterol

22
Biological Membranes
  • In aqueous solution, phosphoglycerides
    spontaneously form into a lipid bilayer, with a
    back-to-back arrangement of lipid monolayers (see
    Figure 7.10)
  • polar head groups are in contact with the aqueous
    environment
  • nonpolar tails are buried within the bilayer
  • the major force driving the formation of lipid
    bilayers is hydrophobic interaction
  • the arrangement of hydrocarbon tails in the
    interior can be rigid (if rich in saturated fatty
    acids) or fluid (if rich in unsaturated fatty
    acids)

23
Biological Membranes
  • Figure 7.10 A lipid bilayer

24
Biological Membranes
  • the presence of cholesterol increases rigidity
  • with heat, membranes become more disordered the
    transition temperature is higher for more rigid
    membranes it is lower for less rigid membranes
  • plant membranes have a higher percentage of
    unsaturated fatty acids than animal membranes
  • the presence of cholesterol is characteristic of
    animal rather than plant membranes
  • animal membranes are less fluid (more rigid) than
    plant membranes
  • the membranes of prokaryotes, which contain no
    appreciable amounts of steroids, are the most
    fluid

25
Membrane Proteins
  • Functions transport substances across membranes
    act as receptor sites, and sites of enzyme
    catalysis
  • Peripheral proteins
  • bound by electrostatic interactions
  • can be removed by raising the ionic strength
  • Integral proteins
  • bound tightly to the interior of the membrane
  • can be removed by treatment with detergents or
    ultrasonification
  • removal generally denatures them

26
Fluid Mosaic Model
  • Fluid there is lateral motion of components in
    the membrane
  • proteins, for example, float in the membrane
    and can move along its plane
  • Mosaic components in the membrane exist
    side-by-side as separate entities
  • the structure is that of a lipid bilayer with
    proteins, glycolipids, and steroids such as
    cholesterol embedded in it
  • no complexes, as for example, lipid-protein
    complexes, are formed

27
Membrane Transport
  • Passive transport
  • driven by a concentration gradient
  • simple diffusion a molecule or ion moves through
    an opening created by a channel protein
  • facilitated diffusion a molecule or ion is
    carried across a membrane by a carrier protein
  • Active transport
  • a substance is moved against a concentration
    gradient
  • primary active transport transport is linked to
    the hydrolysis of ATP or other high-energy
    molecule for example, the Na/K ion pump
    (Figures 7.24 and 7.25)
  • secondary active transport driven by H gradient
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