Hey everyone. So in this video, we're going to take a look at waxes. Now remember, waxes represent a portion of our overall ideal lipids that are hydrolyzable. Waxes themselves are simple lipids composed of a long-chain alcohol and a long-chain fatty acid. If we take a look here, we can say that a fatty acid and alcohol are attached by an ester bond. So if we take a look here, we have our ester bond because we have this carbonyl connected to an oxygen, connected to another carbon which is part of our long-chain alcohol, and we have our fatty acid on this end. This ester bond here, it can be broken, which is why we're going to say that our waxes belong to our hydrolyzable group of lipids. If we look here, remember, lipids are broken down into what's hydrolyzable and what's not, and waxes would fit here. They themselves again are long-chain alcohol with a fatty acid. We also have within this subset our Glycerolipids and our Sphingolipids. We're going to say here that waxes, well, they possess what we call water repellent properties. And we're going to say they form a protective coat or protective coatings on feathers of birds and leaves of plants. So it has this repellent nature. Right? So just remember when we're talking about waxes, this is just one of our 3 groups that represent hydrolyzable lipids.
Waxes - Online Tutor, Practice Problems & Exam Prep
Waxes Concept 1
Video transcript
Waxes Example 1
Video transcript
For this example, it says, provide a structure of beeswax. It contains myricyl alcohol and palmitic acid. So step 1 says, draw the structure of the alcohol in its condensed form, as well as the fatty acid. We're going to place an OH group of alcohol next to the carboxyl group of the fatty acid. Now, let's just do that first. So, here acid is CH3, and we're going to say here that it has 29 of these CH2 groups. We're going to do 28 of them together. The 29th one, we're going to have it branch off, and then it's connected to the OH group. Now we need to draw the fatty acid, which is palmitic acid. Palmitic acid represents a saturated fatty acid. And if we recall our memory tool 1, it is that Lori's Mystic Palace Stores Art. And we're going to say here that LORI, lmPSandA, PALIS stands for palmitic acid. This memory tool starts off at 12 carbons and goes up to 20. And we're going to have 14, 16, 18. So, palmitic acid is a fatty acid that's unsaturated and it has a total of 16 carbons. The first carbon is part of the carboxylic acid. So that's 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16. Okay. So that's 16. So we've done that part.
Now it says instead of OH on alcohol, we're just going to draw an O, this is going to help later on when we connect these 2 together, and we're going to say, do not draw OH on fatty acid. So let's remove this OH. So we have these 2 fragments. Step 2 is we're going to form the Ester Bond. So we're going to draw a bond between the O of the alcohol and the carbonyl C of the fatty acid. So connect these 2 together, this oxygen with this carbonyl carbon here, and we'll have our beeswax. So let's write this out. So we have CH3 connected to 28 of these CH2s, connected to 1 more CH2, then O, which is going to be connected to the carbonyl carbon. So remember it's 16 carbons, so 2, 4, 6, 8, 10, 12, 14, 16. So that's 16. So this would represent our beeswax. We've combined the alcohol with our unsaturated fatty acid in order to make this particular type of wax. They are connected together through an ester bond.
Structure of component of spermaceti wax is given below. If it gets hydrolyzed, draw structures of molecules it would produce.