Download L1 - Simple Lipids

Simple
Lipids
Building Blocks of Lipids
Draw each of the following:
• Fatty acids
• Glycerol
Reference
• Glucose
• Phosphoric acid
• Choline
• Sphingosine
• Sterol
Fatty Acids:
• Long chain carboxylic acids (10-20 c’s)
• Usually have an even number of carbons, are
unbranched and have no other functional
groups attached.
• In water, fatty acids will form micelles.
Lipid
• A biological compound that is soluble only in
non-polar solvents, generally containing fatty
acids or sterols.
Simple Lipids
(waxes, fats & oils)
= Lipids formed primarily from
fatty acids
Found as biological food stores,
protective coatings and cleansing
systems.
• Can be saturated (no C=C bonds) or
unsaturated (has C=C bonds)
• Fatty acid melting points decrease as the
number of C=C bonds increases.
• Most unsaturated fatty acids are liquids
at room temperature.
• Fatty acids with C=C bonds cannot pack
closely together because of shape. This
leads to decreased intermolecular
attractions and lower melting points.
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The unstaturated fatty acids usually contain double
bonds in the cis configuration.
The cis C=C causes “kinking” of the carbon chain.
• These kinks
prevents
polyunsaturated
fatty acids from
packing close
together,
resulting in
weaker attractive
forces and lower
melting points.
Fatty Acids to Know:
Saturated Unsaturated
Butryic
Mystric
Palmitic
Stearic
Arachidic
Oleic
Linoleic
Linolenic
Arachidonic
Waxes
• Esters of fatty
acids and long
chain alcohols
• Water insoluble
and not easily
hydrolyzed.
Often found in
protective
coatings.
Natures Waterproofing
Essential Fatty Acids:
= Those needed by the body, but not synthesized
within the body in adequate amounts.
• For humans, linoleic and linolenic acid are
essential, but easily obtainable from plant and
fish oils.
Triglycerides
• (triglycerols) which are triesters of long
chained fatty acids and glycerol.
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Simple Triglycerides
Comprised with only one
fatty acid on a glycerol
backbone.
Structure of a mixed triglycerol in
which three different fatty acid
residues are present.
Mixed Triglycerides
Contain different fatty acids
on the same glycerol backbone.
Fats and Oils
• Triglycerides that are solid at room
temperature are called FATS.
• Usually from animal sources.
• Contain a high degree of saturated fatty
acids.
• Triglycerides that are liquid at room
temperature are called OILS.
Representative triglycerols from a
fat and an oil.
The greater the
number of unsaturated
fatty acids, the more
likely the triglyceride
is to be an oil.
• Usually from plant and fish sources.
• Are liquids at room temperature.
• Contain more unsaturated fatty acids.
From the graphs below, we
can see that different sources
contain vastly different degrees
of saturated and unsaturated
fatty acids.
Another graph showing fatty acid
compositions of common fats and oils.
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Simple lipids undergo 5 basic reactions
1. Esterification
- of Glycerol and Fatty acids form triglycerides.
1. Esterification
2. Hydrolysis
3. Saponification
4. Hydrogenation
5. Oxidative Rancidity
2. Hydrolysis
– important for fat and oil digestion.
4. Hydrogenation
- Double bonds of unsaturated fatty acids
are hydrogenated
- decreases the degree of unsaturation,
used to make margarines from oils.
Glycerol Tristerate
3. Saponification
– the commercial production of the carboxylate
salts of fatty acids in triglycerides (soaps).
5.Oxidative Rancidity
- the oxidation of double bonds of fatty
acids in fats and oils
- Results in the formation of a small
carboxylic acid and an aldehyde.
- Responsible for the foul odor
associated with fat decomposition.
Partially vs. hydrogenated
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