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  • Lipids are a group of hydrophobic biomolecules that play

  • important roles in living organisms.

  • While the primary function of lipids is long-term energy storage, lipids are also used for protection,

  • insulation, and lubrication. They also act as precursors for some hormones,

  • and are a key component of cell membranes.

  • There are four basic groups of lipids. These are triglycerides,

  • phospholipids, steroids, and waxes.

  • Although these groups differ in many respects,

  • they all have one characteristic in common:

  • They are all insoluble in water.

  • You may have noticed that lipids and water do not mix.

  • For example, notice the yellow colored oil in the beaker of water shown here?

  • Even if we stirred this for several minutes, or even several hours,

  • the oil would still separate out from the water. This is because lipids are hydrophobic.

  • From Latin, the prefixhydromeanswaterandphobicmeansfear of”.

  • So when you hear that lipids arehydrophobic”, this basically mean that water

  • and lipids do not mix.

  • Let’s take a closer look at the category of lipids known as triglycerides.

  • Triglycerides include the fats and oils. Fats (such as lard and butter) are

  • solid at room temperature and are used by animals for insulation,

  • protection and long-term energy storage.

  • Oils (such as corn oil and olive oil) are liquid at room temperature

  • and are used by plants for long-term energy storage.

  • At the molecular level, triglycerides contain two types of subunit molecules:

  • glycerol and fatty acids. Let’s take a quick look at fatty acids.

  • Let’s take a quick look at fatty acids.

  • A fatty acid has three main parts: a chain of carbon and hydrogen atoms called

  • thehydrocarbon chain,” a methyl group at one end,

  • and an acid group at the other end.

  • Fatty acids can be either saturated or unsaturated.

  • A fatty acid that has only single carbon to carbon bonds

  • is known as a saturated fatty acid. This is because the carbon chain is

  • saturatedwith all the hydrogen atoms it can hold.

  • Unsaturated fatty acids have one to several double bonds.

  • Double bonds result in kinks in the

  • fatty acid chain which affects the melting point of the fat.

  • Animal fats have saturated fatty acids and are solid

  • at room temperature while vegetable oils have one or many double

  • bonds and are liquid at room temperature.

  • A trans-fat is an example of an unsaturated fatty acid where the hydrogen atoms are on

  • opposite sides of the double-bond. Trans-fats are usually formed during the production of processed foods

  • and are also common in partially hydrogenated oils.

  • In order to increase shelf life and melting point of the fat, excess hydrogen atoms are

  • introduced to a unsaturated oil. This causes the

  • formation of trans-fat bonds in the fatty acid chain. Unfortunately the consumption of trans

  • fats has been associated with cardiovascular disease and its use has fallen from favor.

  • Now that you understand a little bit fatty acids,

  • let’s zoom back out and look at how the triglyceride subunits fit together.

  • Remember, a fatty acid is only a small part of a triglyceride.

  • To become a triglyceride, 3 separate fatty acids have to

  • bond with a glycerol molecule through the process of dehydration synthesis.

  • Let’s move on to the next category of lipids, which is phospholipids.

  • Phospholipids are similar to triglycerides

  • in that they contain glycerol and two fatty acids.

  • What’s different is that a phosphate group rather than a third fatty

  • is attached to the third carbon of glycerol.

  • Phospholipids are extremely important, mainly because of their unique properties in regard to water.

  • The phosphate head of the molecule is hydrophilic (or water-loving).

  • This means that it mixes well with water. The fatty acid tails, however,

  • are hydrophobic (or water-hating) and do not mix well with water.

  • Because of these unique properties, phospholipids tend to arrange themselves so that

  • only the hydrophilic heads interact with a watery environment,

  • and the hydrophobic tails crowd inward away from the water.

  • This structure is the major component of plasma membranes of the cell.

  • Steroids are the next category of lipids.

  • Steroids are composed of four fused rings of carbon to which different functional

  • groups are attached. One well-known steroid

  • molecule is cholesterol.

  • Cholesterol serves as a precursor for the synthesis of

  • other steroids such as testosterone, estrogen, vitamin D, and cortisone.

  • Cholesterol is present in plasma membranes where it stabilizes the membrane.

  • The hormones testosterone and estrogen have small differences in their functional groups

  • but large differences on their effects on an organism.

  • Waxes are the final group of lipids. Waxes are non-polar and repel water.

  • They are found in protective coatings on leaves and on outer surfaces of animals.

  • Wax is produced in the ears of some animals to protect the eardrum.

  • In addition, bees construct honey combs from wax.

  • Now that weve covered all four categories of lipids, Let’s do a quick recap.

  • The four categories of lipids are triglycerides, phospholipids,

  • steroids and waxes. All lipids are insoluble in water.

  • While the primary function of lipids is long-term energy storage,

  • lipids are also used for a multitude of other purposes, such as protection

  • and insulation, and as key component of hormones and cell membranes.

Lipids are a group of hydrophobic biomolecules that play

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脂質 (Lipids)

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    Yrchinese に公開 2021 年 01 月 14 日
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