Biochemistry of Lipids PDF

Summary

This document presents a detailed study on the biochemistry of lipids, including definitions, functions, classifications, and properties of various lipid types. It covers topics such as saturated and unsaturated fatty acids, essential fatty acids, and different lipid structures. Further information on the roles of lipids in cells and potential health implications are detailed..

Full Transcript

Biochemistry
of Lipids

Dr. Margaret Doherty
Lipids

Lipids

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Definition
Function
Classes
Nomenclature
Simple and Complex
 Definition of lipids

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Lipids are defined as water insoluble organic biomolecules

- composed of C, H, O (some contain P)

- can be extracted from cells and tissues by non-polar

solvents e.g. chloroform, benzene or ether
 Function of lipids

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Structural Precursor of
Act as Protection of
Storage form component many steroid
thermal internal
of energy of cell hormones,
insulator organs
membrane. vitamin D
 Function of lipids

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Fats serve as
Helps in Acts as
Lipoproteins surfactants Improve
absorption electric
transporting by reducing taste and
of fat soluble insulators in
lipids surface palatability.
vitamins neurons.
tension.
 Classification of Lipids

Simple Lipids Complex Lipids

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Fatty Acids Phospholipids

Steroids
Glycolipids
(Cholesterol)

Triglycerols Sphingolipids
 Fatty Acids (FAs)

These are building blocks for complex lipids

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e.g. Triglycerides contain three fatty acids and a glycerol

Provide a lot of energy

Precursors of other important compounds

e.g. Certain hormones

May have a major impact on health

- Risk of Cardiovascular Disease
 Types of Fatty Acids

The Length of Carbon Chain

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Long chain
Medium chain
Short chain

Degree of Saturation

Saturated
Unsaturated

Location of Double Bonds

Omega 3 fatty acids
Omega 6 fatty acids
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Length of Carbon Chain
 Saturated

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Degree of
Unsaturation

Monounsaturated
Unsaturated
Cis/Trans
Polyunsaturated
 Saturated Fatty Acid

All Single Bonds between Carbons

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Monounsaturated Fatty Acid

One carbon-carbon double bond

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Polyunsaturated Fatty Acid

Two or more carbon-carbon double bonds

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 Fatty Acids (FAs)

Saturated chains pack

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tightly and form more
rigid, organized
aggregates (i.e.,
membranes)

Unsaturated chains
bend and pack in a
less ordered way, with
greater potential for
motion
 Structure of FAs

All contain

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- A long hydrocarbon chain
- Terminal carboxyl group
The chain length varies
4 carbons – 22 carbons
The nature of the chain varies
- Saturated or unsaturated i.e. no double bonds vs.
double bonds
The number/position of double bond can vary
 Essential fatty acids

Most saturated and monounsaturated fatty acids can be

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synthesized by mammals

Unable to synthesis linoleic (Ω6) and linolenic acid (Ω3)

- Essential fatty acids

- Necessary in diet

- If absent in the diet, deficiency diseases arise
 Fatty acid Nomenclature

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Nomenclature reflects the location of the double bond
The Δ system counts from the carboxyl end
Find Carbon in the carboxyl group
- # No. 1
Subsequent carbons numbered sequentially 2,3,4,5 etc.
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Carboxyl Group
Butanoic acid
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Carboxyl Group
1
Butanoic acid

2
3
4
 Shorthand notation

A shorthand notation is used indicating

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The number of carbons in the chain

The number double bond(s) in the hydrocarbon chain, if any

The position of any double bonds in the hydrocarbon chain,

counting from the carboxyl carbon (i.e. carbon #1)

Double bond in carboxyl group not included

Double bonds assumed to be cis-type (natural fats)
 Butanoic acid

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4 3 2 1

Shorthand notation: C4:0
 Linoleic acid

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Shorthand notation: C18:29,12
 ω – notation system

The number of carbons in the chain

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The number double bond(s) in the hydrocarbon chain
The position of the double bonds in the hydrocarbon
chain
numbering from the methyl group (CH3-)
which is done by using the symbol ω
e.g., linoleic acid is represented by 18:2 ω6
 Linoleic acid

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Omega notation count this way!

18:2 ω6
 Omega (ω) – notation system

Ω-3 (omega 3) fatty acids are

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- polyunsaturated fatty acids
- Have the first double bond at carbon #3
starting from the methyl carbon
Ω-3 fatty acids are thought to have major health benefits
Ω-6 fatty acids are
- polyunsaturated fatty acids
- have the first double bond at carbon #6
- starting from the methyl carbon
 Lipolysis

Hydrolysis of lipids by

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lipase

Occurs in fat adipocytes

Glycerol and free fatty

acids are released
 Steroids

Many different compounds

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Distinctive functions / activities
All originate from a terpene called squalene
Cholesterol - Most abundant steroid in animal tissues
Precursor of bile acids, androgens (male hormones),

oestrogens (female hormones) and other hormones

Excessive blood cholesterol is associated with increased risk of

atherosclerosis
 Cholesterol
The liver is primary site of cholesterol synthesis
Also be acquired from diet

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Intake of dietary cholesterol reduces the synthesis of
cholesterol
Adults on a low cholesterol diet
- synthesize c.800 mg cholesterol / day
Two different classes of lipoprotein carry cholesterol around
the body

- LDLs

- HDLs
 Low-density Lipoprotein

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Contain largest portion of total cholesterol
Carry cholesterol to the tissues
High levels of LDLs associated with increased risk of
cardiovascular disease (CVD)/heart attack
Diets high in monounsaturated fat/ low in saturated fats
decrease the LDL cholesterol which, in turn, results in a
reduction in the risk of CVD
 High-density Lipoprotein

Transport cholesterol from the tissues to the liver

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High levels of HDLs are associated with decreased risk of
CHD
Diets high in polyunsaturated fats beneficially decrease
LDL cholesterol
 Triacylglycerols (Triglycerides)

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Most abundant family of lipids
Major component of deposit or storage lipids in plant and
animal cells
In animal, the deposit lipids are stored as adipose tissue
98-99% of vegetable oil and the lipid component of butter,
lard
 Structure of Triglycerides

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Glycerol backbone
Three fatty acid residues are bound
all three -OH groups of glycerol are esterified with fatty acids
Most animal fats and plant oils are extremely complex
mixtures of triglycerides
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A Triglyceride
 Properties of Triglycerides

Melting point increases as the number of carbons

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increases and as the number of double bonds decreases
Solubility
Unsaturated are usually liquid at room temperature
Saturated are usually solid at room temperature
Lipolysis (as described for FA)
Autoxidation
 Phospholipids

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Includes Phosphoglycerides
Complex lipids
Major components of cell membranes
 Phospholipid Structure

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Phospholipids consist of a backbone of glycerol
There are two fatty acids esterified to the glycerol molecule
The phosphoric acid residue to which the alcohol is esterified
varies
The nature of the alcohol varies
Depends on the phospholipid e.g. Choline, Ethanolamine
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Phosphatidyl ethanolamine
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Amphipathic molecule
 Occurrence
Very important components of cell membranes
The most abundant phosphoglycerides in higher plants and

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animals are:
1. Phosphatidylethanolamine (cephalin)
This important phospholipid contains ethanolamine as the alcohol
group
2. phosphatidyl choline (lecithin)
This phospholipid contains choline as the alcohol group
Other phospholipids include:
- phosphatidyl serine
- phosphatidyl glycerol
 Glycolipid

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Contain both carbohydrate and lipid components.
Derivatives of ceramide
Key component of cell membrane – stability, cell-cell
interaction
Act as Cell surface receptors
 Sphingolipids

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Important membrane components in both plants and animals

Present in especially large amounts in brain and nerve tissue

Only trace amounts are present in fat deposits

Contain sphingosine as backbone
 Sphingolipids

All sphingolipids contain three characteristic building block

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components:
1) A molecule of fatty acid, 2) A molecule of sphingosine, 3) A
polar head group e.g. phosphoethanolamine, phosphoryl choline