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Chapter 1 Carbohydrates

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Title: Chapter 1 Carbohydrates


1
Chapter 1 Carbohydrates
2
Carbohydrates
  • Carbohydrate a polyhydroxyaldehyde or
    polyhydroxyketone, or a substance that gives
    these compounds on hydrolysis
  • Monosaccharide a carbohydrate that cannot be
    hydrolyzed to a simpler carbohydrate
  • they have the general formula CnH2nOn, where n
    varies from 3 to 8
  • aldose a monosaccharide containing an aldehyde
    group
  • ketose a monosaccharide containing a ketone group

3
Monosaccharides
  • Monosaccharides are classified by their number of
    carbon atoms

4
Monosaccharides
  • There are only two trioses
  • aldo- and keto- are often omitted and these
    compounds are referred to simply as trioses
    although this designation does not tell the
    nature of the carbonyl group, it at least tells
    the number of carbons

5
Monosaccharides
  • Glyceraldehyde contains a stereocenter and exists
    as a pair of enantiomers

6
Fischer Projections
  • Fischer projection a two dimensional
    representation for showing the configuration of
    tetrahedral stereocenters
  • horizontal lines represent bonds projecting
    forward
  • vertical lines represent bonds projecting to the
    rear
  • the carbon atom at the intersection of the
    horizontal and vertical lines is not shown

7
D,L Monosaccharides
  • According to the conventions proposed by Fischer
  • D-monosaccharide a monosaccharide that, when
    written as a Fischer projection, has the -OH on
    its penultimate carbon on the right
  • L-monosaccharide a monosaccharide that, when
    written as a Fischer projection, has the -OH on
    its penultimate carbon on the left

8
The four aldotetroses
  • Enantiomers stereoisomers that are mirror images
  • example D-erythrose and L-erythrose are
    enantiomers
  • Diastereomers stereoisomers that are not mirror
    images
  • example D-erythrose and D-threose are
    diastereomers

9
D,L Monosaccharides
  • Following are the two most common D-aldotetroses
    and the two most common D-aldopentoses

10
D,L Monosaccharides
  • and the three most common D-aldohexoses. Note
    that the third of these is an amino sugar
  • also shown is the most common 2-keto-D-hexose

11
Cyclic Structure
  • Monosaccharides have -OH and CO groups in the
    same molecule and exist almost entirely as five-
    and six-membered cyclic hemiacetals
  • anomeric carbon the new stereocenter resulting
    from cyclic hemiacetal formation
  • anomers carbohydrates that differ in
    configuration only at their anomeric carbons

12
Haworth Projections
  • Haworth projections
  • five- and six-membered hemiacetals are
    represented as planar pentagons or hexagons, as
    the case may be, viewed through the edge
  • most commonly written with the anomeric carbon on
    the right and the hemiacetal oxygen to the back
    right
  • the designation ?-?means that -OH on the anomeric
    carbon is cis to the terminal -CH2OH ?- means
    that it is trans

13
Haworth Projections
14
Haworth Projections
  • a six-membered hemiacetal ring is shown by the
    infix -pyran-
  • a five-membered hemiacetal ring is shown by the
    infix -furan-

15
Conformational Formulas
  • five-membered rings are so close to being planar
    that Haworth projections are adequate to
    represent furanoses

16
Conformational Formulas
  • for pyranoses, the six-membered ring is more
    accurately represented as a strain-free chair
    conformation

17
Conformational Formulas
  • if you compare the orientations of groups on
    carbons 1, 2, 3, 4, and 5 in the Haworth and
    chair projections of ?-D-glucopyranose, you will
    see that in each case they are up-down-up-down-up
    respectively

18
Ascorbic Acid (Vitamin C)
  • L-Ascorbic acid (vitamin C) is synthesized both
    biochemically and industrially from D-glucose

19
Ascorbic Acid (Vitamin C)
  • L-Ascorbic acid is very easily oxidized to
    L-dehydroascorbic acid
  • both are physiologically active and are found in
    most body fluids

20
Oxidation
  • Reducing sugar one that reduces an oxidizing
    agent
  • oxidation of a cyclic hemiacetal form gives a
    lactone
  • when the oxidizing agent is Tollens solution, Ag
    precipitates as a silver mirror

21
Reduction
  • The carbonyl group of a monosaccharide can be
    reduced to an hydroxyl group by a variety of
    reducing agents, including H2/M and NaBH4
  • reduction of the CO group of a monosaccharide
    gives a polyhydroxy compound called an alditol

22
Phosphoric Esters
  • Phosphoric esters are particularly important in
    the metabolism of sugars
  • phosphoric esters are frequently formed by
    transfer of a phosphate group from ATP

23
Formation of Glycosides
  • Glycoside a carbohydrate in which the -OH of the
    anomeric carbon is replaced by -OR
  • those derived from furanoses are furanosides
    those derived from pyranoses are pyranosides
  • glycosidic bond the bond from the anomeric
    carbon to the -OR grou

24
Amino Sugars
25
Disaccharides
  • Sucrose
  • table sugar obtained from the juice of sugar
    cane and sugar beet
  • one unit of D-glucose and one unit of D-fructose
    joined by an a-1,2-glycosidic bond

26
Disaccharides
  • Lactose
  • about 5 - 8 in human milk, 4 - 5 in cows
    milk
  • one unit of D-galactose and one unit of D-glucose
    joined by a b-1,4-glycosidic bond

27
Disaccharides
  • Maltose
  • two units of D-glucose joined by an
    a-1,4-glycosidic bond

28
Polysaccharides
  • Cellulose the major structural component of
    plants, especially wood and plant fibers
  • a linear polymer of approximately 2800 D-glucose
    units per molecule joined by b-1,4-glycosidic
    bonds
  • fully extended conformation with alternating
    180 flips of glucose units
  • extensive intra- and intermolecular hydrogen
    bonding between chains

29
Polysaccharides
  • Starch is used for energy storage in plants
  • a polymers of a-D-glucose units
  • amylose continuous, unbranched chains of up to
    4000 a-D-glucose units joined by ?-1,4-glycosidic
    bonds
  • amylopectin a highly branched polymer consisting
    of 24-30 units of D-glucose joined by
    ?-1,4-glycosidic bonds and branches created by
    ?-1,6-glycosidic bonds
  • amylases catalyze hydrolysis of ?-1,4-glycosidic
    bonds
  • debranching enzymes catalyze the hydrolysis of
    ?-1,6-glycosidic bonds

30
Polysaccharides
  • Figure 13.22 Branching in amylopectin and
    glycogen

31
Polysaccharides
  • Chitin the major structural component of the
    exoskeletons of invertebrates, such as insects
    and crustaceans also occurs in cell walls of
    algae, fungi, and yeasts
  • composed of units of N-acetyl-?-D-glucosamine
    joined by ?-1,4-glycosidic bonds

32
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33
Polysaccharides
  • Bacterial cell walls prokaryotic cell walls are
    constructed on the framework of the repeating
    unit NAM-NAG joined by b-1,4-glycosidic bonds

34
Bacterial Cell Walls
  • The NAM-NAG polysaccharide is in turn
    cross-linked by small peptides
  • in Staphylococcus aureus, the cross link is a
    tetrapeptide
  • this tetrapeptide is unusual in that it contains
    two amino acids of the D-series, namely D-Ala and
    D-Gln
  • each tetrapeptide is cross linked to an adjacent
    tetrapeptide by a pentapeptide of five glycine
    units

35
Bacterial Cell Walls
36
Bacterial Cell Walls
  • Figure 13.24(d) The peptidoglycan of a bacterial
    cell wall

37
Plant Cell Walls
  • consist largely of cellulose
  • also contain pectin which functions as an
    intercellular cementing material
  • pectin is a polymer of D-galacturonic acid joined
    by ?-1,4-glycosidic bonds
  • the major nonpolysaccharide of cell walls,
    especially in woody plants, is lignin (next
    screen)

38
Plant Cell Walls - Lignin
  • Figure 13.25 Lignin

39
Polysaccharides
  • Glycosaminoglycans polysaccharides based on a
    repeating disaccharide where one of the monomers
    is an amino sugar and the other has a negative
    charge due to a sulfate or carboxylate group
  • heparin natural anticoagulant
  • hyaluronic acid a component of the vitreous
    humor of the eye and the lubricating fluid of
    joints
  • chondroitin sulfate and keratan sulfate
    components of connective tissue

40
Hyaluronic Acid
41
Heparin
42
Glycoproteins
  • Glycoproteins contain carbohydrate units
    covalently bonded to a polypeptide chain
  • antibodies are glycoproteins
  • carbohydrates play a role as antigenic
    determinants, the portions of the antigenic
    molecule that antibodies recognize and to which
    they bond

43
Blood Group Substances
  • Membranes of animal plasma cells have large
    numbers of relatively small carbohydrates bound
    to them
  • these membrane-bound carbohydrates act as
    antigenic determinants
  • among the first antigenic determinants discovered
    were the blood group substances
  • in the ABO system, individuals are classified
    according to four blood types A, B, AB, and O
  • at the cellular level, the biochemical basis for
    this classification is a group of relatively
    small membrane-bound carbohydrates

44
ABO Blood Classification
  • in type A, the nonreducing end is NAGal
  • in type B it is Gal
  • in type AB, both types are present
  • in Type O, neither of these terminal residues is
    present

45
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46
L-Fucose
  • L-fucose is synthesized biochemically from
    D-mannose
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