Sphingomyelins - Online Tutor, Practice Problems & Exam Prep

Now before we can talk about sphingomyelins, we first need to talk about sphingolipids. These are lipids that have a sphingosine backbone. We're going to say a sphingosine itself is an 18-carbon amino alcohol. Some key characteristics of a sphingosine are, carbons 1-3 are analogous to glycerol. Here, you'll notice that, typically when we talk about other types of fatty acids, we usually number from 1 down to 3. Here, it's kind of inverted on its head. So one starts here on the bottom, and it moves up to 3. We're going to say carbons 1-3 are analogous to glycerol, so they have OH groups on those carbons. Next, we're going to say our amino group, which is NH₂, is at carbon number 2, so there's an NH₂ here. Then we're going to say 15 carbons are attached to carbon 3. So we have this long chain that extends to 15 carbons, because remember it's 18 carbons. We have 1 to 3 here, and then the other 15. And then finally, we're going to say we have a trans double bond at carbon number 4. With this information, that's how we're able to create this image of a typical sphingosine. So just remember, we're talking about sphingolipids. These are lipids that have a sphingosine backbone. Sphingosine itself has these characteristics that make it unique.

Now, sphingomyelins are phospholipids with a sphingosine backbone and one fatty acid. Here, we're going to say phosphate and a choline head group form the head of the structure. We're going to say one tail is the sphingosine chain, and the other tail is a fatty acid attached to an amide bond. If we take a look here at our chart, again, we're dealing with fatty acids. We're going to come down where we're dealing with our sphingomyelin. And we're going to say here, if we take a look at our sphingomyelin, we're going to say we have our sphingosine backbone here, which is this part here. We're going to say that we have on carbon number 1, this phosphate group. Remember we're dealing with a choline head, so that means that the oxygen of the phosphate group is connected to an ethyl. And remember choline CH means that we have a nitrogen connected to CH₃, 3 of them, because nitrogen makes 4 bonds, it's positively charged. And then remember we're making an Amide Bond here on carbon number 2. So remember, an amide is where we have a carbonyl group connected directly to a nitrogen. Now, here we're going to say this is important, that sphingomyelins are primary structural components of the myelin sheath. So, this is what we're talking about: nerve fiber coating. We'll talk about later on in terms of the myelin sheath when we talk about muscles. So, for right now, just keep that in mind. Alright. And these are the characteristics of a typical sphingomyelin structure.

For this example question, it asks, which one of the following statements about sphingomyelins is incorrect? Here, the fatty acid at carbon 2 is attached through an amide linkage. That there is true, so this can't be an answer. The backbone molecule in sphingomyelins is sphingosine. That is also true. It's not glycerol like we've seen in other molecules; it's sphingosine. Sphingomyelins are essential for the structural integrity of the myelin sheath. This is an important fact when it comes to our sphingomyelin. So, this is also true. The odd one out is option d. Let's see why that is. A sphingomyelin has only one tail because it contains one fatty acid. So here, we have a fatty acid chain at carbon number 2, but it has more than one tail. It has also a hydrocarbon tail at carbon number 3, but we have also the presence of that trans double bond. Hence, this statement is incorrect. Here, the answer would be option d. This is the only incorrect statement out of the 4 given to us.

In this video, we're going to talk about drawing sphingomyelins. So, drawing sphingomyelin requires recalling the structures of sphingosine and the fatty acids involved. Now, here it says, draw the structure of a sphingomyelin that contains oleic acid. Remember, oleic acid represents an unsaturated fatty acid. Its standard notation or shorthand notation is 18:1. Meaning that we have an 18 carbon fatty acid chain, 1 means we have 1 pi bond, and with these unsaturated fatty acids with 1 pi bond, it's typically at carbon number 9 where we first see it.

Now, come down here, we're going to say step 1 is to draw the sphingosine backbone with a phosphate group at carbon number 1. So here goes carbon number 1 and there's a phosphate group there. We're going to say instead of an NH₂ group at carbon number 2, we're going to write only NH. So here there's going to be an NH group right here. And that's because we're going to attach something to that NH group.

Step 2, we're going to extend the phosphate at carbon number 1 with the choline head group. Remember, we're not saying choline, but co-choline head group. So, in choline, we have an ethyl group attached to the oxygen, and then we have nitrogen. Choline is CH. Nitrogen is connected to CH₃, 3 of them. Because it's making 4 bonds, it's positively charged.

Coming down to step 3, we're going to draw the fatty acyl group, so the fatty acid without the OH, from the NH group at carbon number 2. So here goes our amide linkage or amide bond that's going to be formed. So, remember, oleic acid is an unsaturated fatty acid. Its standard or shorthand notation is 18:1. So we have 18 carbons, so we have 2, 4, 6, 8, 10, 12, 14, 16, 18, just to be sure. This would be the structure of our sphingomyelin based on the information given to us within the example question. We have our amide bond on Carbon number 2 in terms of its NH group. We have our Phosphate group, as well as the Choline head group on carbon number 1. And of course, on carbon number 3, we have our 15 carbon chain that's also containing a trans double bond.

Alright, so this would be our final answer.