7.3 .pdf

Transcript

Fatty Acids:

They are lipids with long chains of carbon and hydrogen.
End with a carboxylic acid group.
Hydrophobic: They do not mix with water (water-fearing).

Types of Fatty Acids:

Saturated Fatty Acids:
○ Only have single bonds in the hydrocarbon chain.
○ Have the maximum number of hydrogen atoms.
○ Straight and flexible structure.
○ Typically solid at room temperature.
Unsaturated Fatty Acids:
○ Contain at least one double bond in the hydrocarbon chain.
○ Have fewer hydrogen atoms.
○ Have “kinks” in their structure due to double bonds.
○ Typically liquid at room temperature.

Triacylglycerol (Triglyceride):

Formed by linking three fatty acids to a glycerol molecule.
Main component of body fat (adipose tissue).
Major part of skin oils (sebum).
Serve as efficient energy-storage molecules, providing more than double the calories of
carbohydrates and proteins.

Triglycerides:

Simple lipids made from glycerol and fatty acids.

Complex Lipids:

Contain additional components (e.g., phosphate in phospholipids, carbohydrates in
glycolipids).

Phospholipid Structure:

Composed of two fatty acids linked to glycerol (diglyceride).
One binding position on glycerol is occupied by a phosphate group instead of another
fatty acid.
Fatty acid chains can be saturated, unsaturated, or a mix.

Hydrophobic vs. Hydrophilic:
 Triglycerides: Nonpolar (hydrophobic) due to long hydrocarbon chains; do not mix well
with water.
Phospholipids: Have a negatively charged phosphate group, making them polar
(hydrophilic) and attracted to water.

Amphipathic Nature:

Phospholipids have both hydrophobic tails (nonpolar) and hydrophilic heads (polar).
The polar "head" is attracted to water; the nonpolar "tails" are not.

Micelles and Lipid Bilayers:

Micelles: Spherical structures with hydrophobic tails inside and polar heads outside.
Lipid Bilayers: Formed by tail-to-tail arrangement of phospholipids; make up cell
membranes and many intracellular structures.

Function:

These structures are crucial for cell membranes and various physiological functions
(e.g., vesicles and liposomes).

Isoprenoids (Terpenoids):

Definition: Branched lipids formed from chemical changes to isoprene.
Roles:
○ In Plants and Animals: Various physiological functions.
○ Technological Uses:
Pharmaceuticals (e.g., capsaicin).
Pigments (e.g., beta carotene, xanthophylls).
Fragrances (e.g., menthol, camphor, limonene, pinene).
Long-Chain Isoprenoids: Found in oils and waxes.
○ Waxes:
Water-resistant and hard at room temperature.
Soften when heated.
○ In Humans: Produced in sebaceous glands as sebum (contains triacylglycerol,
wax esters, squalene).
○ Skin Bacteria: Feed on these lipids, e.g., Cutibacterium acnes generates fatty
acids and is linked to acne.

Steroids:

Definition: Complex, ringed structures found in cell membranes; some act as hormones.
Sterols:
○ Definition: A type of steroid with an OH group.
○ Characteristics: Mostly hydrophobic but have hydrophilic hydroxyl groups.
○ Common Sterol: Cholesterol.
 Structure: Four rings with a double bond and a hydroxyl group.
Function: Strengthens cell membranes in eukaryotes and some bacteria
(e.g., Mycoplasma).
Prokaryotes: Generally do not produce cholesterol but have similar compounds
(hopanoids) that strengthen membranes.
Fungi and Protozoa: Produce ergosterol, which also strengthens cell membranes.