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Chapter 5 The Structure and Function of Macromolecules Intro & Carbohydrates.

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Presentation on theme: "Chapter 5 The Structure and Function of Macromolecules Intro & Carbohydrates."— Presentation transcript:

1 Chapter 5 The Structure and Function of Macromolecules Intro & Carbohydrates

2 Polymer Principles Classes of macromolecules include –Carbohydrates –Lipids –Proteins –Nucleic Acids Three of the four classes are polymers –Carbohydrates, Proteins, and Nucleic Acids

3 Polymer Principles, cont’d Polymer –A long molecule consisting of many similar or identical building blocks linked by covalent bonds Monomer –The small repeating units that serve as the building blocks of a polymer

4 Polymer Principles, cont’d Condensation Reactions –Process by which monomers are covalently connected to each other –Typically are dehydration reactions since a water molecule is lost –A cell must expend energy to carry out dehydration reactions / Process requires enzymes –Note that an immense variety of polymers can be synthesized from a small set of monomers

5 Polymer Principles, cont’d Hydrolysis –process by which polymers are disassembled –Essentially the reverse of a dehydration rxn –Bonds between monomers are broken by the addition of water molecules across the bond –Ex: Digestion

6 Figure 5.2 The synthesis and breakdown of polymers

7 Carbohydrates Carbohydrates include both sugars and their polymers –Monosaccharides simple sugars Ex: glucose, fructose –Disaccharides two monosaccharides joined by condensation Ex: sucrose, maltose –Polysaccharides polymers of many monosaccharides Ex: cellulose, starch

8 Monosaccharides Molecular formula = (CH 2 O) n Glucose (C 6 H 12 O 6 ) is the most common Contain a carbonyl carbon and multiple hydroxyls Classified as either aldose sugars or ketose sugars Also classified on the basis of length of carbon skeleton (triose, pentose, hexose, etc.)

9 Monosaccharides, cont’d Typically contain one or more asymmetric carbon atoms Importance to cells: –Major fuels for cellular work –Raw material for synthesis of other types of small organic molecules such as amino acids and fatty acids

10 Figure 5.3 The structure and classification of some monosaccharides

11 Figure 5.4 Linear and ring forms of glucose

12 Figure 5.7a Starch and cellulose structures Figure 5.7a Starch and cellulose structures

13 Disaccharides Two monosaccharides joined by a glycosidic linkage Ex: maltose = glucose + glucose Sucrose = glucose + fructose typical transport form of sugar in plants Lactose = glucose + galactose

14 Figure 5.5 Examples of disaccharide synthesis

15 Polysaccharides Polysaccharides - polymers with hundreds to thousands of monosaccharides joined by glycosidic linkages May be storage polysaccharides or structural polysaccharides Architecture and function determined by sugar monomers and position of glycosidic linkages

16 Storage Polysaccharides Starch –storage polysaccharide of plants –composed of series of glucose monomers with a 1-4 glycosidic linkage –helical in structure –amylose = unbranched starch –amylopectin = branched polymer with 1-6 linkages at branch points –stored within plastids

17 Storage Polysaccharides, cont’d Glycogen –storage polysaccharide of animals –composed of series of  -glucose monomers with a 1-4 glycosidic linkage –highly branched structure with 1-6 linkage at branchpoints –stored in liver and muscle cells

18 Figure 5.7b,c Starch and cellulose structures Figure 5.7b,c Starch and cellulose structures

19 Figure 5.6 Storage polysaccharides

20 Structural Polysaccharides Cellulose –major component of tough wall that encloses plant cells –the most abundant organic compound on Earth (100 billion tons produced/year) –polymer with 1-4 linkages of  -glucose –straight, not branched, packing due to H-bonding –humans do not have the enzymes to digest cellulose / cow’s rumen contains bacteria that can digest cellulose

21 Figure 5.7b,c Starch and cellulose structures Figure 5.7b,c Starch and cellulose structures

22 Figure 5.8 The arrangement of cellulose in plant cell walls

23 Structural Polysaccharides, cont’d Chitin –polymer used by arthropods to build their exoskeletons –also used by fungi to build their cell walls –similar to cellulose but the glucose monomer has a nitrogen containing appendage


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