15.6 Polysaccharides The polysaccharide cellulose is composed of glucose units connected by β-(1 4)-glycosidic bonds. Learning Goal Describe the.

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15.6 Polysaccharides The polysaccharide cellulose is composed of glucose units connected by β-(1 4)-glycosidic bonds. Learning Goal Describe the structural features of amylose, amylopectin, glycogen, and cellulose.

Polysaccharides Polysaccharides are formed when many monosaccharides are joined together. include amylose, amylopectin, cellulose, and glycogen, which are polymers of D-glucose and differ by branching and types of glycosidic bonds. α-D-Glucose

Starch Starch is a storage form of glucose in plants, found as insoluble granules in rice, wheat, potatoes, beans, and cereals. composed of two kinds of polysaccharides: amylose and amylopectin.

Starch: Amylose Amylose, which makes up about 20% of starch, consists of 250 to 4000 α-D-glucose molecules connected by α-(1 4)-glycosidic bonds in a continuous chain. Polymer chains of amylose are coiled in a helical fashion.

Starch: Amylopectin Amylopectin makes up as much as 80% of starch. is a branched-chain polysaccharide. contains glucose molecules connected by α-(1 4)- and α-(1 6)-glycosidic bonds. Starches hydrolyze easily in water and acid to give smaller saccharides, called dextrins, which then hydrolyze to maltose and finally glucose.

Starch: Amylopectin In our bodies, these complex carbohydrates are digested by the enzymes amylase in saliva and maltase in the intestines. provide about 50% of our nutritional calories from the glucose obtained in digestion.

Animal Starch: Glycogen Glycogen is a polymer of glucose that is stored in the liver and muscle of animals. hydrolyzed in our cells at a rate that maintains the blood level of glucose and provides energy between meals. similar to amylopectin but more highly branched. The glucose units in glycogen are joined by α-(1 4)- glycosidic bonds, with branches attached by α-(1 6)- glycosidic bonds that occur every 10–15 glucose units.

Cellulose Cellulose, the major structural unit of wood and plants, is a polysaccharide of glucose units in unbranched chains with β-(1 4)-glycosidic bonds. cannot form hydrogen bonds with water, making it insoluble in water. gives a rigid structure to the cell walls in wood and fiber. is more resistant to hydrolysis than are the starches. cannot be digested by humans because humans cannot break down β-(1 4)-glycosidic bonds.

Cellulose The polysaccharide cellulose is composed of glucose units connected by β(1 4)-glycosidic bonds.

Study Check Identify the polysaccharides and types of glycosidic bonds in each of the following: A. B.

Solution Identify the polysaccharides and types of glycosidic bonds in each of the following: A. Cellulose β-(1 4)-glycosidic bonds B. Amylose α-(1 4)-glycosidic bonds Amylopectin α-(1 4)- and α-(1 6)-glycosidic bonds

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