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What are Fats?

  • Fats are crucial for a healthy diet and serve as the most concentrated energy source, providing 8-9 calories per gram, compared to 4 calories per gram from carbohydrates and proteins.
  • Composed of carbon, hydrogen, and oxygen, fats contain a higher ratio of carbon and hydrogen, leading to their high calorie content.
  • Classified under lipids, fats combine both saturated and unsaturated types and are essential for energy in food.
  • The body synthesizes two vital types of fats essential for inflammation control, blood coagulation, brain development, and more.
  • Fats act as a storage system for excess calories, storing them in fat cells or adipose tissue, which also insulates the body.
  • They play a key role in enabling the absorption and transportation of vitamins A, D, E, and K in the bloodstream.

Types of Fats

Saturated Fat:

  • Linked to bad cholesterol and found in animal products like cheese, milk, and meat.
  • Consumption should be limited due to the risk of heart disease from artery blockage by cholesterol.
  • Unsaturated fats are recommended over saturated fats to lower cholesterol levels.
  • Trans fatty acids from vegetable oils can also increase cholesterol.

Monounsaturated Fats:

  • Healthy fats found in avocados, macadamia nuts, peanuts, olives, and olive oil.
  • Beneficial for heart protection, insulin sensitivity, fat storage, weight loss, and energy levels.

Trans Fats:

  • Also known as unsaturated fatty acids or trans fatty acids.
  • Naturally occurring in beef, lamb, whole milk, cheese, cream, and butter.
  • Conjugated linoleic acid, a type of natural trans fat, helps strengthen the immune system and prevent cancer.
  • Most are artificially created through hydrogenation, turning liquid oils into solid fats (e.g., margarine, vegetable shortening).
  • Found in processed foods, baked goods, and items fried in partially hydrogenated oils.

Polyunsaturated Fats:

  • Healthy fats present in plant and animal foods, including vegetable oils, walnuts, flax seeds, and salmon.
  • Include Omega 3 (reduces inflammation, supports healthy hormone levels and cell membranes) and Omega 6 fatty acids (important for brain and muscle function).
  • Small amounts of Omega 6 are needed, found in corn, soybean, safflower, cottonseed, grapeseed, and sunflower oils.
  • Omega 6 is also in baked goods and packaged foods like cookies, crackers, chips, and french fries, which are not stable.

Essential Fatty Acids

  • The body can synthesize most fatty acids except for three essential ones: Linoleic acid, Linolenic acid, and Arachidonic Acid.
  • These essential fatty acids need to be obtained through dietary intake.
  • Deficiency symptoms include poor growth and skin irritation.
  • Such deficiencies have been observed in infants consuming formula without these essential nutrients.

Fatty Acid – Meaning and Definition

  • Fatty acids are carboxylic acids with long aliphatic chains, which may be branched or unbranched.
  • Naturally occurring fatty acids typically have even numbers of carbon atoms and are usually unbranched.
  • They are key components of lipids.
  • Fatty acids are found in three main ester forms: phospholipids, triglycerides, and cholesteryl esters.

Types of Fatty Acids

Fatty acids are categorized according to:

  • Their carbon chain length.
  • The number of carbon atoms they contain.
  • Their level of saturation (saturated or unsaturated).

Even and Odd Chain Fatty Acids

  • Most natural fatty acids feature an even number of carbon atoms in their aliphatic chains, such as oleic acid and stearic acid, both with 18 carbons.
  • Odd-chain fatty acids (OCFA), which have an odd number of carbon atoms, exist as well; examples include heptadecanoic and pentadecanoic acids, found in dairy products.
  • The biosynthesis process of odd-chain fatty acids is more complex compared to that of even-chain fatty acids.

Saturated and Unsaturated Fatty Acids

  • Saturated fatty acids lack double bonds (C=C) in their aliphatic chains, with the chemical formula represented as CH3(CH2)nCOOH.
  • Unsaturated fatty acids have at least one double bond in their aliphatic chain, leading to the formation of cis and trans isomers.

Fats and Fatty Acids | Zoology Optional Notes for UPSC

Cis isomers:

  • Hydrogen atoms adjacent to the double bond are on the same side.
  • Double bonds restrict the fatty acid's conformational freedom, making the molecule more rigid.
  • A higher number of cis bonds results in a less flexible and more curved conformation.
  • Examples include oleic and linoleic acids.

Trans isomers:

  • Hydrogen atoms are positioned on opposite sides of the aliphatic chain, making the molecule straight.
  • The trans configuration allows the structure to remain straight, similar to saturated fatty acids.
  • Most naturally occurring unsaturated fatty acids are in the cis configuration.

Trans fats mainly result from human processing and are not commonly found in nature.

Length of Fatty Acids

Short-Chain Fatty Acids (SCFA):

  • Have aliphatic chains of five or fewer carbons.
  • Example: butyric acid.

Medium-Chain Fatty Acids (MCFA):

  • Aliphatic chains consist of 6 to 12 carbons.
  • Example: capric acid.

Long-Chain Fatty Acids (LCFA):

  • Possess aliphatic chains of 13 to 21 carbons.
  • Example: oleic acid.

Very Long Chain Fatty Acids (VLCFA):

  • Aliphatic chains have 22 or more carbons.
  • Example: lignoceric acid.

Properties of Fatty Acids

Acidity:

  • Fatty acids generally have similar acidities.
  • Increase in chain length reduces solubility in water but doesn't significantly affect pH of an aqueous solution.
  • Example: Nonanoic acid (C9) with a pKa of 4.96, compared to acetic acid (C2) with a pKa of 4.76.

Hydrogenation:

  • Unsaturated fatty acids are susceptible to rancidity through autoxidation or hydrolysis when exposed to air.
  • Hydrogenation is used to reduce rancidity in unsaturated fatty acids.

Autoxidation:

  • Unsaturated fatty acids can chemically change via autoxidation in the presence of air and trace metals.
  • Treatment with chelating agents can prevent autoxidation by removing metal catalysts.

Ozonolysis:

  • Unsaturated fatty acids are at a high risk of degradation by ozone.

Circulation of Fatty Acids

Digestion and Intake:

  • SCFA and MCFA are absorbed directly into the blood through intestinal capillaries and transported via the hepatic portal vein, similar to other nutrients.
  • LCFA are absorbed in the intestine's villi, transformed into triglycerides, then coated with cholesterol and proteins to create chylomicrons.
  • Chylomicrons travel through the lymphatic duct to a location near the heart, where they are stored or metabolized for energy.

Metabolism:

  • Fatty acids undergo beta-oxidation and the citric acid cycle in mitochondria, breaking down into CO2 and water.
  • Energy is released in the form of ATP after oxidative phosphorylation.
The document Fats and Fatty Acids | Zoology Optional Notes for UPSC is a part of the UPSC Course Zoology Optional Notes for UPSC.
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