Lipids

Question 1

Lipid elemental composition

Answer 1

C H O

Question 2

chemical structure/formula

Answer 2

CH3 (CH2)n COOH

Question 3

the three classes

Answer 3

saturated
monounsaturated
polyunsaturated

Question 4

Saturated fatty acids

Answer 4

each carbon has a full quota of hydrogen atoms
no double bonds between carbon atoms
solid at room temp
generally from animal sources (butyric acid butter and stearic acid steak)

Question 5

Monounsaturated fatty acids

Answer 5

all atoms aren’t saturated with hydrogen
one double bond between carbon atoms
generally soft/liquid at room temp
generally come from plant sources (oleic acid from corn oil)

Question 6

Polyunsaturated fatty acids

Answer 6

all carbon atoms are not saturated with hydrogen
more than one double bond
generally soft liquid at room temp
generally from plant sources (walnuts, seeds and flax oil) and fish(salmon, herring)
EXAMPLES OF POLYUNSATURATED/ESSENTIAL FATTY ACIDS: linoleic linolenic, arachidonic

Question 7

essential fatty acids

Answer 7

can’t be manufactured in the body must be obtained through food
Linoleic is most important as others can be synthesised from it

Question 8

functions of essential fatty acids

Answer 8

formation of cell membranes (growth)
can counteract the hardening effect of cholesterol on the arteries reducing the risk of CHD.

Question 9

Omega 3 fatty acids

Answer 9

a particular unsaturated fatty acid with the FIRST DOUBLE BOND between the THIRD AND FOURTH carbon atoms

Question 10

sources of omega 3

Answer 10

oily fish: salmon, sardines
nuts
seeds
soya beans
supplement

Question 11

benefits of Omega3 fatty acids

Answer 11

reduce the risk of heart attack and stroke
improve brain function and help to fight age related mental decline (cognitive function)
improve eye health
reduce risk of certain cancers

Question 12

structure of saturated fatty acid

Answer 12

O H H H H
|| | | | |
HO -C-C-C-C-C- H
| | | |
H H H H

Question 13

structure of monounsaturated

Answer 13

O H H H H
|| | | | |
HO -C-C-C=C-C- H
| | | |
H H H H

Question 14

structure of polyunsaturated

Answer 14

O H H H H
|| | | | |
HO -C-C=C-C=C- H
| |
H H

Question 15

Cis fatty acid

Answer 15

polyunsaturated fatty acids are called cis fatty acids when the hydrogen atoms on the same side of the double bond i.e both above or below the carbon chain

Sources: sunflower and olive oil, nuts, avocados

 H   H
 |    | —C = C—

Question 16

Trans fatty acids

Answer 16

polyunsaturated fatty acids are called trans fatty acids when the hydrogen atoms are on opposite sides of the double bond

Sources: crisps, biscuits, cakes, crackers

H
| —C = C —
       |
       H

Question 17

Significance of trans fatty acids in the diet

Answer 17

regarded as unhealthy and are thought to play a role in increasing the incidence of CHD
they increase LDL which deposit cholesterol on walls of the arteries
Reduce HDL which remove cholesterol from circulation

Question 18

Animal lipids

Answer 18

meat
butter
cream
cheese
milk
egg yolk

Question 19

plant lipids

Answer 19

nuts
but oils
vegetable oils
margarine
cereals
soya beans

Question 20

marine sources

Answer 20

salmon
mackerel
trout
herring
sardines
tuna
fish liver oils

Question 21

Properties of lipids
SOLUBILITY

Answer 21

Insoluble in water but soluble in solvents (alcohol)

Question 22

Properties of lipids
AFFECTED BY HEAT

Answer 22

solid fats melt when heated to 30-40°C.
Lipids boil at extremely high temps (175-195°C)
Beyond these temperatures smoke point and eventually flash point can occur.

Question 23

Properties of lipids
PLASTICITY

Answer 23

This property related to whether a lipid is solid, liquid or spreadable.
It’s determined by the degree of saturation.
The more saturated fatty acids are present, the more solid the lipid.
As a result, many unsaturated margarines are spreadable and suitable for creaming.

Question 24

Properties of lipids
RANCIDITY: Ocidative

Answer 24

the spoilage of lipids
more common
occurs when oxygen combines with carbon atom at the double bond
results in rancid smell and taste
aided by light

Question 25

Properties of lipids
RANCIDITY: Hydrolytic rancidity

Answer 25

occurs when enzymes and bacteria hydrolyse lipids changing them to fatty acids and glycerol
results in unpleasant smell and taste
can occur in freezer due to enzymes

Question 26

to prevent oxidative rancidity

Answer 26

store in cool dark place
wrap well
Antioxidants added during production prevent oxidative rancidity by combining with the oxygen making it unavailable to attach to the carbon atom

Question 27

Properties of lipids
HYDROGENATION

Answer 27

an unsaturated fatty acid can have hydrogen added in the presence of a NICKEL CATALYST, converting oil into fats.
It is used in the production of margarine

Question 28

Properties of lipids
EMULSIFICATION: water in oil

Answer 28

water droplets are dispersed in oil
eg: butter, margarine

Question 29

Properties of lipids
EMULSIFICATION: oil in water

Answer 29

oil droplets are dispersed in water
eg: milk, mayonnaise

Question 30

temporary emulsions

Answer 30

formed by vigorous shaking
eg: oil and vinegar in a vinaigrette dressing

Question 31

permanent emulsions

Answer 31

formed with the help of an emulsifier Eg: lecithin in egg yolk acts as an emulsifier in mayonnaise preventing the water in the eggs and vinegar form separating from the oil

Question 32

maintaining emulsions
emulsifier/ emulsifying agents

Answer 32

an emulsifier is a molecule that has a hydrophilic head an a hydrophobic tail.
The hydrophilic head attaches itself to the water molecule and the hydrophobic tail attaches itself to the oil molecule, preventing them from separating

Eg: lecithin in egg yolks

Question 33

maintaining emulsions
stabiliser

Answer 33

maintain emulsion, preventing separation
eg: pectin, gelatine

Question 34

Melting point

Answer 34

30-40°C

Question 35

boiling point

Answer 35

175-195°C

Question 36

Smoke point

Answer 36

fats and oils start to decompose if overheated
The glycerol separates from the fatty acid la and changes to ACROLEIN, producing a blue haze (vapour) or smoke while emitting an acrid smell.
It occurs at 200°C for fats
And 250°C for oils

Smoke point is lowered if lipids contain impurities such as food particles

Question 37

flash point

Answer 37

extreme overheating causes the vapour to spontaneously ignite
occurs at 310 for fats
325 for oils

Question 38

Biological functions of lipids

Answer 38

supply body with heat and are a concentrated source of energy
Excess is stored as adipose tissue, insulating the body and acting as an energy reserve
Protect delicate organs such as kidney and insulate nerve fibres
Source of essential fatty acids

Question 39

To reduce fat in diet

Answer 39

Buy lean cuts of meat and remove fat
choose low fat cooking method (grilling, steaming or baking) instead of frying
use low fat spreads and low fat varieties of milk and yogurt
avoid hidden fats in snacks such as crisps and pastries
INCRWASE CONSUMPTION OF HIGH FIBRE FOODS SUCH AS FRUIT VEG AND WHOLEGRAINS AND DECREASE PORTION SIZE OF CHEESE MEAT

Question 40

DIGESTION
PACREAS

Answer 40

Secretion: pancreatic juice
Enzyme: Lipase
Substrate: lipid
Product: fatty acid and glycerol

Question 41

DIGESTION
LIVER

Answer 41

Secretion: bile
Enzyme:—
Substrate: lipids
Product: EMULSIFIED LIPID

Question 42

DIGESTION
SMALL INTESTINE

Answer 42

Secretion: intestinal juice
Enzyme: lipase
Substrate: lipid
Product: fatty acids and glycerol

Question 43

Absorption and utilisation

Answer 43

digested lipids are oxidised in muscles and liver and are used:
to produce heat and energy
in formation of cell membranes
excess is stored as adipose tissue