This document summarizes different types of lipids and their functions. It discusses fatty acids, triacylglycerols, glycerophospholipids, sphingolipids, steroids, and eicosanoids. The main points are:
1) Lipids perform important biological functions as components of biological membranes, as energy stores, and in cell signaling.
2) Common lipids include fatty acids, triacylglycerols, glycerophospholipids, sphingolipids, and steroids.
3) Lipids have structural diversity and consist of hydrophobic molecules involved in membrane structure and energy storage.
A lipid is chemically defined as a substance that is insoluble in water and soluble in alcohol, ether, and chloroform. Lipids are an important component of living cells. Together with carbohydrates and proteins, lipids are the main constituents of plant and animal cells. Cholesterol and triglycerides are lipids.
A Comprehensive Introduction to Lipids and its chemistry, classification, qualitative tests and disorders related to its metabolism. This will give readers a overall insight to this topic. All types of queries and suggestions are most welcome
Lipid Chemistry-Complete - Alex -Dr Ayman- 2015 - 2016 - More Detailed.pptAyman Abdo
This presentation shows the classification and occurrence of human lipids and their biological value. It also reveals the chemical formula of human lipids
A lipid is chemically defined as a substance that is insoluble in water and soluble in alcohol, ether, and chloroform. Lipids are an important component of living cells. Together with carbohydrates and proteins, lipids are the main constituents of plant and animal cells. Cholesterol and triglycerides are lipids.
A Comprehensive Introduction to Lipids and its chemistry, classification, qualitative tests and disorders related to its metabolism. This will give readers a overall insight to this topic. All types of queries and suggestions are most welcome
Lipid Chemistry-Complete - Alex -Dr Ayman- 2015 - 2016 - More Detailed.pptAyman Abdo
This presentation shows the classification and occurrence of human lipids and their biological value. It also reveals the chemical formula of human lipids
1. Lipids
• Fatty Acids
• Triacylglycerols
• Glycerophospholipids
• Sphingolipids
• Steroids, Eicosanoids
• Lipid Bilayers
Lipids consist of hydrophobic molecules that have great
structural variability and are not polymeric.
In general, the lipids perform three biological functions:
1. Essential components of biological membranes.
2. Contain hydrocarbon chains that serve as energy stores.
3. Involved in many intracellular and intercellular signaling.
2. Fatty Acids
Fatty acids are carboxylic acids with long-chain
hydrocarbon side groups. In plants and animals, the
predominant fatty acid residues have C16 or C18 side
chains.
Type of Fatty Acid
Saturated Fatty Acids
Unsaturated Fatty Acids
Polyunsaturated Fatty Acids
Content of Side Chain
no double bonds
contain double bonds
contain 2 or more double
bonds
5. Triacylglycerols
H2C
HC
H2C
OH
OH
OH
H2C
HC
H2C
O
O
O
O
C R1
O
C R2
O
C R3
Glycerol Triacylglycerol
O
C
H2C
HC
H2C
O
O
O
O
C
O 18
C
18
16
1-palmitoleoyl-2-linoleoyl-3-stearoyl-glycerol
1
2
3
6. Fats and Oils - Energy Reserves
Fats and oils exist primarily as triacylglycerols (or triglycerides).
Fats are solids at room temperature, oils are liquids.
Fats and oils are complex mixtures of triacylglycerols (composition)
varies with organism). Plant oils are richer in unsaturated fatty acids
(lower melting point and thus are liquids at room temperature).
Fats are a highly efficient form of energy. Fats are less oxidized than
proteins or carbohydrates and thus produce more energy per unit
mass upon complete oxidation. Also, fats are stored anhydrous.
Fats provide about six times the metabolic energy of an equal weight
of hydrated glycogen.
Adipocytes (fat cells) synthesize and store triacylglycerols and
adipose tissue is the most abundant tissue source.
7. Glycerophospholipids
(or phosphoglycerides)
• major component of biological membranes
• esters of glycerol-3-phosphate
O
O
C R1
O
Amphiphilic molecules: nonpolar aliphatic (hydrocarbon) “tails”
polar phosphoryl-X “heads”
H2C
C
H2C
OH
H
O
HO
P OH
OH
H2C
C
H2C
O
H
O
O
P O
O-O
R2 C
X
L-glycerol-3-phosphate general structure of a
glycerophospholipid
8. Common Classes of Phospholipids
X-OH
water
ethanolamine
choline
serine
glycerol
O
Formula of -X
-H
-CH2CH2NH3
+
-CH2CH2N(CH3)3
+
-CH2CH(NH3
+)COO-
-CH2CH(OH)CH2OH
O
C R1
Name
phosphatidic acid
phosphatidylethanolamine
phosphatidylcholine (lecithin)
phosphatidylserine
phosphatidylglycerol
Table 9-2. H2C
C
H2C
O
H
O
O
P O
O-O
R2 C
X
9. Structure of a Phospholipid
1-stearoyl-2-oleoyl-3-phosphatidylcholine
Fig. 9-4
H2C
C
H2C
O
H
O
O
O
C
P O
O-O
(CH2)16CH3
O
C
(CH2)7
CH2CH2N(CH3)3
+
H
C
H
C(CH2)7 H3C
10. Phospholipases hydrolyze phospholipids.
phospholipase A2
O
C R1
O
phospholipase A2
phospholipase A1
O
C R1
O
C R1
O
phospholipase C phospholipase D
H2C
C
H2C
O
H
O
O
P O
O-O
R2 C
X
H2C
C
H2C
O
H
O
HO
P O
O-O
X
H2O
R2COOH
H2C
C
H2C
O
H
O
O
P O
O-O
R2 C
X
12. Sphingolipids
• a major membrane component
• derivatives of the C18 amino alcohol sphingosine
• N-acyl fatty acid derivatives are known as ceramides
OH
OH H
H2C C C H
CH
+H3N
HC
(CH2)12
CH3
sphingosine
OH
OH H
H2C C C H
CH
HN
HC
(CH2)12
CH3
C
R
ceramide
O
(R = fatty acid residue)
13. Steroids
A B
C D
cyclopentanoperhydrophenanthrene
14. Cholesterol
HO
cholesterol
Central steroid in
the animal kingdom
Two Functions:
• Serves as an
integral component
in biological
membranes
• Serves as the
biosynthetic
precursor to other
steroid molecules
15. Adrenal Steroidogenesis
HO
cholesterol HO
O
pregnenolone
side chain
cleavage
HO
OH
O
O
OH HO
OH
O
O
O
cortisol aldosterone
16. Sex Hormone Steroidogenesis
HO
cholesterol HO
O
pregnenolone
side chain
cleavage
OH O
O
progesterone
HO
OH
aromatase
O
estradiol testosterone
17. Eicosanoids
• Eicosanoids (C20) are derived from arachidonic acid (20:4)
• Four classes of eicosanoids:
– prostaglandins
– prostacyclins
– thromboxanes
– leukotrienes
1
COOH
8 5
11 14
20
arachidonic acid
(5,8,11,14-eicosatetraenoic acid)
18. Eicosanoid Biosynthesis
COOH
arachidonic acid
phospholipids
phospholipase A2
cyclooxygenase 5-lipooxygenase
O
O
COOH
OH
PGH2
COOH
OH OH
LTB4
(leukotriene)
COOH
OH
HO
HO
COOH
OH
O
HO
COOH
OH
HO
HO O
PGF2a
(prostaglandin) PGI2
(prostacyclin)
TxB2
(thromboxane)