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1. Carbon is the second most abundant
element in living organisms.
2. Carbon can share four electrons,
therefore it can bond to four
additional atoms.
3. Carbon establishes covalent bonds
(stable, high energy bonds)
4. Carbon molecules have strength,
flexibility, and great versatility to
chemically react with other atoms and
molecules.
3.2.1 Carbon Makes Organic MoleculesWhy Carbon?
Any molecule which contain carbon is defined as organic. There are few exceptions:Oxides of carbon (CO, CO2) and Hydrogencarbonates HCO3¯
Macromolecules are constituted by hydrocarbon backbones, which mainly
provide structural stability, and by one or several functional groups.
Functional groups are involved in many and diverse chemical reactions,
establishing bonds with other atoms and molecules.
Macromolecules
3.2.1 Structure of some important macromolecules
3.2.3/4 Examples of Monosaccharides and Function
Monosaccharides are the simplest form of carbohydrate.
They provide the building blocks for larger carbohydrate molecules.
They also act as a respiratory substrate, providing cells with an energy source.
Glucose is the main energy source for most living cells. It is one of the
carbohydrates produced in photosynthesis and forms the building blocks of many
carbohydrates.
Fructose is a very sweet sugar. It is the main component of flower nectar
and the sugar found in the fruits.
Galactose is found in milk. It combines with glucose to form the disaccharide
milk sugar molecule lactose
3.2.3 Examples of DisaccharidesA disaccharide consists of two monosaccharides joined by a glycosidic linkage, a covalent
bond formed between two monosaccharides through a condensation reaction.
The hydroxyl group of one sugar and a hydroxyl of another sugar can join together, splitting
out water to form a glycosidic bond:
R-OH + HO-R' R-O-R' + H2O
H O
O H
H
O HH
O H
CH 2O H
H
O H
O H
H
O HH
O H
CH 2O H
H
O
HH
1
23
5
4
6
1
23
4
5
6
m altose
OH
HLactose
H O
O H
H
O HH
O H
CH 2O H
H
O H
O H
H
O HH
O H
CH 2O H
H
O
HH
1
23
5
4
6
1
23
4
5
6
m altose
1
23
4
5
6
1
2
3 4
5
6
Sucrose
3.2.3/4 Examples of Disaccharides and Function
Disaccharides are relatively small molecules.
They are water-solubes and taste sweet.
Disaccharides are more suitable for transport and storage
than monossacharides.
Sucrose is stored in sugar beet and sugar cane. It is the
main form in which carbohydrates are transported in the
phloem tubes of plants.
Plants store glucose as starch.
The major constituent of plant cell walls, Cellulose, it consists of long linear chains of
glucose with (1 4) linkages.
3.2.3 Examples of Polysaccharides
The majority of sugars found in nature exist in the form of polysaccharides.
Large chains of sugar units
Glycogen, the glucose storage polymer in animals, is similar in structure to starch, but
glycogen has (16) branches.
The highly branched structure permits rapid glucose release from glycogen stores, e.g., in
muscle during exercise.
H O
OH
H
OHH
OH
CH 2OH
HO H
H
OHH
OH
CH 2OH
H
O
HH H O
OH
OHH
OH
CH 2
HH H O
H
OHH
OH
CH 2OH
H
OH
HH O
OH
OHH
OH
CH 2OH
H
O
H
O
1 4
6
H O
H
OHH
OH
CH 2OH
HH H O
H
OHH
OH
CH 2OH
HH
O1
OH
3
4
5
2
glycogen
3.2.3 Polysaccharides in animals: Glycogen
3.2.5 Lipids structure• Lipids are organic molecules insoluble in water.
• They constitute the main reservoir of stored energy.
• The three main categories of lipids are:
• Fats (fatty acids and triglycerides),
• Phospholipids
• Steroids
• Fats also make cell membranes and coatings (i.e. fruit coats)
• The basic structure of fats is a hydrocarbon backbone with a carboxyl group attached
3.2.5 Lipids structure: Fatty acids
Types of fatty acids:
• A fatty acid molecule:• Hydrocarbon chain = Hydrophobic
• Carboxylic acid group =Hydrophilic
Amphipathic
• Fatty acids are very efficient sites of energy storage
• They are stored in cytoplasm of many cells as Triglycerides:
• 3 fatty acid chains
• bonded to a glycerol molecule.
3.2.5 Lipids structure: Triglycerides
+ H2O
+ H2O
+ H2O
• Phospholipids are similar to triglycerides but one of the fatty acids molecules
is replaced by a phosphate group (PO4³¯).
• The lipid part = hydrophobic
• The phosphate part = hydrophilic
3.2.5 Lipids structure: Phospholipids
• Amino acids are joined together when a condensation reaction removes a hydroxyl
group from the carboxyl end of one amino acid and a hydrogen from the amino group
of another amino acid
• The resulting covalent bond is called a peptide bond (C-N)
3.2.5 Protein structure: peptide bond
3.2.6 Function of lipids
Lipids Carbohydrates
1. Long time energy storage
2. Lipids contain twice as much
energy per gram as carbohydrates
3. Lipids are insoluble in water – do
not cause problems with osmosis
cell.
1. Short time energy storage
because are more easily digested so
the energy stored can be released
more rapidly
2. Soluble in water – easier to
transport to and from the store.
3.2.7 Compare the use of carbohydrates and lipids in energy storage