Which two enzymes are required for the beta oxidation of polyunsaturated fatty acids (PUFA)?

Enoyl CoA isomerase and 2,4 Dienoyl CoA reductase

Dienoyl CoA isomerase and Enoyl CoA isomerase

Dienoyl CoA isomerase and 2,4 Dienoyl CoA reductase

Enoyl CoA isomerase and Enoyl CoA reductase

The major carrier of cholesterol in plasma is:

Very-Low-Density Lipoprotein (VLDL)

Which of the following statements about pulmonary surfactant is correct?

A structural protein in epithelial cells

Which of the following is a true difference between gangliosides and cerebrosides?

Specific carbohydrate composition

Which of the following statements about chylomicrons is true?

Chylomicrons primarily contain triglycerides (TGs).

Chylomicrons are unrelated to triglyceride transport.

Chylomicrons primarily contain cholesterol.

Chylomicrons do not primarily contain triglycerides.

Lipid Classification and Chemistry - Free Indian Medical PG

Lipid Classification - Greasy Groups

Simple Lipids: Esters of fatty acids (FAs) with alcohols.
- Fats & Oils (TAGs): FAs + glycerol. Primary energy storage.
- Waxes: FAs + long-chain monohydric alcohols. Protective.
Complex Lipids: FAs + alcohol + additional groups (e.g., phosphate, carbohydrate).
- Phospholipids: + Phosphate. Cell membranes (e.g., Lecithin, Sphingomyelin).
- Glycolipids: + Carbohydrate + sphingosine. Cell recognition (e.g., Cerebrosides).
- Lipoproteins: Lipids + apolipoproteins (e.g., LDL, HDL). Blood lipid transport.
Derived Lipids: Hydrolysis products or precursors.
- FAs, glycerol, steroids (cholesterol, hormones), ketone bodies, fat-soluble vitamins (A,D,E,K).

⭐ Dipalmitoylphosphatidylcholine (DPPC), a lecithin, is the main lipid in lung surfactant, preventing alveolar collapse (atelectasis).

Fatty Acids - Chain Champions

Carboxylic acids with hydrocarbon chains ($R-COOH$). Amphipathic.
Chain Length: Short (<6C), Medium (6-12C), Long (14-20C), Very Long (>20C).
Saturation:
- Saturated (SFA): No C=C. E.g., Palmitic (16C). Solid.
- Unsaturated (UFA): $\ge$1 C=C. Liquid.
  - MUFA: 1 C=C. E.g., Oleic (18:1 $\Delta$9).
  - PUFA: $\ge$2 C=C. E.g., Linoleic (18:2 $\Delta$9,12), Linolenic (18:3 $\Delta$9,12,15).
Nomenclature: $\Delta$ from $COOH$; $\omega$ from $CH_3$ end.
Essential (EFAs): Linoleic ($\omega$-6), $\alpha$-Linolenic ($\omega$-3). 📌 LA ($\omega$-6), ALA ($\omega$-3).
Properties: MP: SFA > UFA. MP ↑ chain length, ↓ C=C. Natural UFAs: cis.

⭐ Arachidonic acid (20:4 $\omega$-6), derived from Linoleic acid, is a key precursor for prostaglandins, thromboxanes, and leukotrienes.

Glycerides & Complex Lipids - Structure Stars

Glycerides (Acylglycerols): Esters: glycerol & fatty acids.
- Triglycerides (TAGs): Glycerol + 3 FAs. Energy store; neutral.
- Saponification: TAG + Alkali $\rightarrow$ Glycerol + Soap.
Complex Lipids: Contain additional groups (e.g., $PO_4^{3-}$, carbohydrate).
- Phospholipids: Amphipathic; $PO_4^{3-}$-containing. Membrane lipids.
  - Glycerophospholipids: Glycerol, 2 FAs, $PO_4^{3-}$, alcohol. Parent: Phosphatidic acid (DAG + $PO_4^{3-}$). Types: Lecithin (lung surfactant), Cephalin, Phosphatidylserine (apoptosis), Phosphatidylinositol (PIP2), Cardiolipin (inner mito. membrane).
  - Sphingophospholipids: Sphingosine, 1 FA, $PO_4^{3-}$, choline. Type: Sphingomyelin (ceramide + phosphocholine - myelin).
- Glycolipids (Glycosphingolipids): Sphingosine, FA, carbohydrate. No $PO_4^{3-}$. Cell recognition.
  - Ceramide: Sphingosine + FA.
  - Cerebrosides: Ceramide + monosaccharide (e.g., Galactocerebroside).
  - Gangliosides: Ceramide + oligosaccharide + NANA (e.g., GM1).
    
    ⭐ Sphingomyelin: only major membrane phospholipid not from glycerol.

Sphingolipid synthesis and breakdown pathways

Steroids & Properties - Ring Leaders & Reactions

Derived lipids, built on cyclopentanoperhydrophenanthrene (CPPP) or gonane nucleus (17C, 4 fused rings).
Cholesterol: Key animal sterol; C3-OH group (amphipathic), vital precursor.
Properties:
- Generally solid alcohols (sterols if C3-OH present).
- Amphipathic: polar -OH head, nonpolar hydrocarbon tail & ring system.
Key Reactions (Cholesterol):
- Esterification: C3-OH + Fatty Acid $\rightarrow$ Cholesterol Ester.
- Salkowski Test: Conc. $H_2SO_4$ $\rightarrow$ Red/Purple layers.
- Liebermann-Burchard Test: Acetic anhydride + Conc. $H_2SO_4$ $\rightarrow$ Emerald green color.

⭐ Cholesterol is the parent compound for all steroid hormones (e.g., cortisol, aldosterone, testosterone, estrogen), bile acids, and Vitamin D.

📌 CPPP Ring: 17C, 4 fused rings (3 Hex: A,B,C; 1 Pent: D).

High‑Yield Points - ⚡ Biggest Takeaways

Simple lipids: Fatty acid esters with glycerol (fats) or other alcohols (waxes).

Complex lipids: Fatty acid esters with alcohols plus additional groups (e.g., phosphate in phospholipids, carbohydrate in glycolipids).

Derived lipids: Include fatty acids, cholesterol, steroid hormones, and eicosanoids.

Fatty acids: Saturated (no double bonds, e.g., palmitic acid) vs. Unsaturated (with double bonds, e.g., oleic acid).

Essential fatty acids: Linoleic acid (ω-6) and α-linolenic acid (ω-3) are indispensable dietary components.

Phospholipids (e.g., lecithin, sphingomyelin) are key structural components of cell membranes.

Cholesterol: Vital for membrane fluidity; precursor to bile acids, steroid hormones, and Vitamin D.