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Carbohydrates (taking up the Organic chemistry worksheet). All organic compounds contain carbon All living things are composed of compounds containing a carbon skeleton. Carbon has the ability to bind four times; therefore all organic structures revolve around these bonds being full - PowerPoint PPT Presentation
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Carbohydrates(taking up the Organic chemistry worksheet)
All organic compounds contain carbon
• All living things are composed of compounds containing a carbon skeleton
• Carbon has the ability to bind four times; therefore all organic structures revolve around these bonds being full
• Compounds without carbon are generally classified as inorganic
Nutrients:
• Carbohydrates (CHO's)
A) General/Functions: Provide fast energy Body unable to create, therefore
generally the largest component of the diet
• If not used – turned into fat
• Comes primarily from plants: rice, potatoes, fruits, veggies.
B) Structure Made of Carbon (C), Hydrogen (H), and
Oxygen (O) Can be single sugars or polymers of
many sugar units
C) Types: generally end in “ose”
1) Single sugars : monosaccharides
a) Structure One single molecule C:H:O ratio generally 1:2:1
Ex: hexose sugars: C6H
12O
6
Hexose sugars can be linear or ring structure
b) types
– Glucose
• Most common
• Primary energy source
• Found in honey
• Hexose: C6H
12O
6
i. Fructose From fruits Sweeter than glucose Hexose: C
6H
12O
6
ii. Galactose Hexose: C
6H
12O
6
Part of lactose
glucose and fructose are isomers of each other, meaning that their chemical formula is the same, but their structures are different (fig 22.11)
2) Complex sugarsa) Disaccharides: two monosaccharides
linked together
i. Sucrose Glucose + fructose Common table sugar From sugar cane and sugar beets
ii. Maltose Glucose + glucose Seeds (from malt barley for malt for
beer)
i. Lactose Glucose + galactose Found in milk
*** disaccharides form by a process called: dehydration synthesis
means to: remove water to create
therefore in a dehydration synthesis reaction, water is always a product
C6H
12O
6 + C
6H
12O
6 --> C
12H
22O
11 + H
2O
Polysaccharides: chains formed of monosaccharide units
i. Starch: plant polysaccharide made of multiple glucose units
1. Amylose: Up to 1000 glucose units C1 linked to C4 of adjacent glucose
molecules Helical or coiled shape
2. Amylopectin: 1000 to 6000 units Short branching chains of 24 – 36
glucose units extending fro the main chain
Cellulose:• Part of plant cell walls
• Many glucose units but linked differently from starch
• Hydrogen bonds between layers (see fig 22.15)
• Layers, not coils
• Cannot be digested by humans
• Called fibre or roughage
• Water held by cellulose aids in elimination of waste
Glycogen• CHO stored in animals
• Structure similar to amylopectin but branching chains are 16 – 24 units
• Also more highly branched
• Excess sugars in blood combined to form glycogen
• Stored in liver and muscles
• Decreased blood sugar results in glycogen being converted to glucose
(picture goes here...with all the branches and whatnot)
Dehydration Synthesis
Monomers bond together to form a polymer (synthesis), with the removal of a water molecule (dehydration)
Hydrolysis
Splitting a polymer (lysis) by the addition of a water molecule (hydro)
Digestion consists of hydrolysis reactions
Through dehydration...
• Amino acids become proteins
• Monosaccharides become Polysaccharides
• Fatty acids become Lipids
• Nucleotides become Nucleic acids (building blocks of DNA)
