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Download 04 Carbohydrates Note
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Carbohydrates An immense variety of polymers can be built from a small set of monomers. Carbohydrates Organic molecules made of sugars (carbon, hydrogen and oxygen) and their polymers Classified by the type and number of simple sugars major source of ENERGY and CARBON! 1. Monosaccharides simple sugars in which C, H, and O occur in ratio = CxH2xOx major nutrients for cells; glucose is most common can be produced by photosynthetic organisms from CO2, H2O, sunlight store energy in chemical bonds, which is released during cellular respiration Characteristics of a sugar: An OH-group attached to each carbon except one, which double bonded to an oxygen (carbonyl) Size of carbon skeleton – commonly 3 (triose), 5 (pentose), and 6 (hexose) In aqueous solutions, many simple sugars form rings a) Glucose C6H12O6 (two forms) b) Galactose Enantiomer (mirror image) of glucose found in milk and yoghurt glucose + galactose = lactose c) Fructose fruit sugar fructose + glucose = sucrose (yummy) 2. Disaccharides “double” sugar that consists of 2 monosaccharides joined by a glycosidic linkage glycosidic linkage = covalent bond formed by condensation reaction between two sugar monomers, for example, maltose. a) Maltose C12H22O11 α glucose + α glucose maltose + H2O (C6H12O6) (C6H12O6) (C12H22O11) (H2O) Disaccharide Monomers General Comments Maltose α-glucose + α-glucose Important in brewing beer Lactose α-glucose + galactose Present in milk Sucrose α-glucose + fructose Table sugar; most common disaccharide; transport form in plants NOTE: Disaccharides can be broken down into simple sugars again through a hydrolysis reaction 3. Polysaccharides “many” sugars complex carbohydrates composed of many simple sugars (1000’s) synthesized by condensation rxns have storage and structural roles connected via alpha (α) or beta (β) glycosidic linkages Energy Storage polysaccharides: a) Starch 1000’s of units of α glucose; helical; α 1-4 linkages the main storage product in most plants when energy is needed, the enzyme amylase assists in the breakdown made of 2 types of polysaccharides: Amylopectin Amylose (p.31) (branched) (unbranched) b) Glycogen (p.32) the polysaccharide that vertebrates use to store glucose (in muscle and liver tissue) lots of branching (α 1-4 and α 1-6 links) of α-glucose units Structural polysaccharides: a) Cellulose (p.33) b) Chintin (p.33) an insoluble linear polysaccharide of Dglucose, used for support in plants joined by β 1-4 linkages its bonds are resistant to hydrolysis important in our diet as fiber Cellulose like polymer used in the exoskeletons of bugs and lobsters and the cell wall of some fungi Monomer = “amino sugar “Nacetylglucosamine (glucose with a nitrogen group)
