CLS 101: Chemistry for Nursing

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Presentation transcript:

CLS 101: Chemistry for Nursing CARBOHYDRATES CLS 101: Chemistry for Nursing

Carbohydrates Carbohydrates are compounds containing carbon, hydrogen, and oxygen in which the ratio of C:H:O is 1:2:1. They are carbon hydrates with a general empirical formula of: Cn(H2O)n. e.g. Glucose C6H12O6 or (CH2O)6 or C6(H2O)6

Origin of Carbohydrates Carbohydrates are formed by plants where the CO2 is taken from air and water (H2O) from soil to form sugar in a process called: Photosynthesis.

Functions of Carbohydrates Energy source. Storage form. Structural form.

Classification of Carbohydrates Carbohydrates, also known as saccharides There are four major classes: Monosaccharides or (simple sugar). Disaccharides: contain 2 monosaccharides. Oligosaccharides: contain 3-12 monosaccharides. Polysaccharides (complex sugars): contain more than 12 monosaccharides.

Classification of Monosaccharides Monosaccharides are single sugars that cannot be broken down into other sugars. Monosaccharides are classified according to different characteristics: -The placement of its carbonyl group, -The number of carbon atoms it contains,

Aldose or Ketose Classification according to the placement of its carbonyl group(C=O) If the carbonyl group is an aldehyde, the monosaccharide is an aldose; C=O at the end of the chain.

If the carbonyl group is a ketone, the monosaccharide is a ketose If the carbonyl group is a ketone, the monosaccharide is a ketose. C=O in the middle of the chain.

What are Isomers, Epimers, and Anomers?

Isomers Isomers are compounds that have the same chemical formula but different structural formula. They all have the same chemical formula C6H12O6 but different structure.

Epimers Epimers are two monosaccharides that have different configurations around one carbon atom.  e.g. Glucose and mannose are C2 epimers   β-D-glucose β-D-mannose

Anomers An anomer is a special type of epimer, it is one of two structures of a cyclic saccharide that differs only in its configuration at the aldose or ketose carbon, also called the anomeric carbon.

C1 is the anomeric carbon β α e.g. α-D-glucose β-D-glucose C1 is the anomeric carbon

Monosaccharides Classification according to the number of carbon atoms: Trios: 3 carbons. Tetrose: 4 carbons. Pentose: 5 carbons. Hexose: 6 carbons. Heptose: 7 carbons.

Monosaccharides All carbon atoms in the monosaccharide are linked together by a single bond. And all are attached to –H and –OH groups except one carbon that has –O double bonded to it. Structure of Glucose

Monosaccharides Monosaccharides with 5 or more carbon atoms can form a ring structure. This sugar will be in the cyclic form. Cyclic Glucose

Monosaccharides The majority of sugars exist in the D-configuration. Mirror images

Structural representation of sugar Fischer projections Haworth projection

Cyclic Monosaccharide Conformation GALACTOSE

Common Monosaccharides The most common monosaccharides are hexoses: glucose, fructose, and galactose. Glucose is an aldohexose that is known as grape sugar. It is the most important sugar in our body present in blood or stored in tissues. Galactose is also an aldohexose. Fructose is a ketohexose that is known as fruit sugar.

Reducing Properties of Monosaccharides Hexose sugars with a free or potentially free aldehyde or ketone group have reducing properties in alkaline solutions. These reducing sugars can reduce cupric ions (Cu+2) into cuprous ions (Cu+1). Reducing + Benedict’s Cu2O + Oxidation Sugar Reagent Product (Cu+2) Brick Red ppt. heat pH 10.5

Disaccharides Disaccharides are formed by the combination of two monosaccharides by a glycosidic bond. This bond is formed when a water molecule is removed, -H from the anomeric carbon of one sugar and –OH from any other carbon of the second sugar.

H2O Glycosidic Bond

Common Disaccharides There are three common disaccharides: Sucrose (cane sugar/ at home), Maltose (malt sugar), and Lactose (milk sugar). Sucrose α-Glucose + β-Fructose linked by α-1,2 glycosidic bond. Maltose α-Glucose + β-Glucose linked by α-1,4 glycosidic bond. Lactose β-Galactose + (α/β)-Glucose linked by β-1,4 glycosidic bond.

Sucrose

Maltose α-1,4 glycosidic bond

β-1,4 glycosidic bond

Reducing Properties of Disaccharides Maltose and Lactose are reducing sugars because they have free aldehyde group while Sucrose is not a reducing sugar because it lacks a free aldehyde or ketone group.

Polysaccharides Polysaccharides are polymers of monosaccharides. There are two types of polysaccharides: Homopolysaccharides: contain one kind of monosaccharide. Heteropolysaccharides: contain different kinds of monosaccharides.

Common Polysaccharides The most common polysaccharides are: Starch, cellulose, glycogen, and dextrin. All these polysaccharides are only made up of glucose. Plants store their food as starch. Plants use cellulose as supporting and structural parts (wood, cotton, paper). Animals store their food as glycogen. And in our body, glucose is stored in the liver and muscles as glycogen.

Properties of Polysaccharides They differ from mono- and disaccharides in many properties: Property Mono- and Disaccharides Polysaccharides Molecular Mass Low Very high Taste Sweet Tasteless Solubility in Water Soluble Insoluble Filtration through membranes Pass Do not Pass Reducing property Yes No