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Carbohydrates Simple Sugars.

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Presentation on theme: "Carbohydrates Simple Sugars."— Presentation transcript:

1 Carbohydrates Simple Sugars

2 Learning Objectives . Distinguish between monosaccharides, disaccharides and polysaccharides (glycogen and starch – amylose and amylopectin) and relate their structures to their roles in providing and storing energy (β-glucose and cellulose are not required in this topic).

3 Learning objectives Describe how monosaccharides join to form disaccharides (sucrose, lactose and maltose) and polysaccharides (glycogen and amylose) through condensation reactions forming glycosidic bonds, and how these can be split through hydrolysis reactions.

4 Carbohydrates Functions: Energy source
Energy store e.g. starch or glycogen Structural material e.g. cellulose Elements made of: Carbon, hydrogen, oxygen General formula Cn(H2O)n

5 CARBOHYDRATES Simple SUGARS POLYSACCHARIDES MONOSACCHARIDES
DISACCHARIDES E.g. Starch and Glycogen Cellulose E.g. Glucose, Fructose, Galactose E.g. Sucrose, Lactose and Maltose ENERGY SOURCE ENERGY STORAGE STRUCTURAL – component of plant cell walls

6 Monosaccharides The simplest carbohydrates ‘single sugars’
Contain between 3 and 6 carbon atoms 3 C’s = Triose sugar e.g. glyceraldehyde 5 – pentose sugar e.g. ribose & deoxyribse 6 – hexose sugar e.g. glucose & fructose, Properties Water soluble Sweet Form crystals

7 α- Glucose

8

9 The glycosidic bond Monosaccharides can be monomers for bigger molecules When two monosaccharides join together a glycosidic bond is formed Why is this called a condensation reaction?

10 Disaccharides Double sugars made from 2 monosaccharides
Formed by CONDENSATION reaction Each mono joined by a GLYCOSIDIC bond Examples Maltose = 2 x α-glucose Sucrose = glucose + fructose Lactose = glucose + galactose

11 Hydrolysis reaction

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