In this video, we're going to take a look at an introduction to fatty acid oxidation. Now, here we're going to say that fatty acid oxidation is part of stage 2 of food catabolism. We're going to say here, it oxidizes fatty acids to yield Acetyl CoA and our high-energy molecules in the form of NADH and FADH2. If we take a look here at the overview, we have our stage 1, we're focusing on the digestion of our lipids and we're paying attention to the creation of our fatty acids. We're not paying attention to glycerol. With our fatty acids, we have fatty acid activation which utilizes ATP to do this. So we're activating our fatty acid, and this is happening within the cytosol under anaerobic respiration. From here, we would then head into stage 2, where we're dealing with the mitochondrial matrix. Here, beta oxidation occurs where we have the formation of our Acetyl CoA. Now, Acetyl CoA can have one of 2 possibilities where it can continue on to stages 34 to the eventual production of ATP or we can have the formation of what we call ketone bodies which we'll discuss later on. Now here, we're going to say fatty acids are prepared or activated for oxidation within the cytosol, as we can see in our overview. And oxidation takes place inside the mitochondrial matrix. So here we have our beta oxidation that occurs. So just remember when we talk about fatty acid oxidation, it's occurring in stage 2 of food catabolism.
Intro to Fatty Acid Oxidation - Online Tutor, Practice Problems & Exam Prep
Intro to Fatty Acid Oxidation Concept 1
Video transcript
Intro to Fatty Acid Oxidation Example 1
Video transcript
Which of the following statements is not true for fatty acid oxidation?
A, fatty acid oxidation is a catabolic process that degrades fatty acids to Acetyl CoA. This statement is true. We do have the breaking down of lipids to fatty acids, and that eventually gets broken down into Acetyl CoA. Fatty acids are activated in the cytosol, that is true, and oxidize inside the mitochondrial matrix, that is also true. Remember, we utilize ATP in order to activate our fatty acid within the cytosol and then, when we get to the mitochondrial matrix, we undergo what's called beta oxidation to form our Acetyl CoA.
High-energy molecules produced in fatty acid oxidation are FADH2 and NADH. That is true. Fatty acid oxidation directly produces many ADP molecules. So the keyword here is directly. No, it does not directly make many ATP molecules here. Right. So we never cited that as a feature when it comes to fatty acid oxidation. So this statement here would be incorrect. Later on, we'll see how exactly this works, but for now, we know that directly, it doesn't produce many ATP molecules.
Intro to Fatty Acid Oxidation Concept 2
Video transcript
Now in this video, we'll talk about the phases of fatty acid oxidation. Fatty acid oxidation takes place in three successive phases. In phase A, we have what's called activation. Here, it prepares the fatty acid for oxidation by converting it into a fatty acyl CoA. To do this, we have to consume ATP. In phase B, we have what's called transport. Here, the fatty acyl CoA moves from the cytosol to the mitochondrial matrix via the carnitine shuttle. And in phase C, we have oxidation. Here the beta oxidation pathway breaks the fatty acid chain into multiple Acetyl CoA. In addition to this, it's going to produce our high energy molecules in the form of FADH2 as well as NADH.
If we take a look at this overview, we start out with our fatty acid. By consuming ATP, we're able to convert it into our fatty acyl CoA. It then goes into our transport phase where it's transformed into our fatty acyl carnitine, so CAR here. And then finally, we have oxidation, where it's going to be oxidized into multiple Acetyl CoA molecules and in addition, our high energy molecules of FADH2 and NADH. So, this image gives us a good overview of what fatty acid oxidation entails.
Intro to Fatty Acid Oxidation Example 2
Video transcript
In this example, it asks which of the following is an incorrect description of a phase in fatty acid oxidation. Remember, there are three phases: A, B, and C. We have activation, transport, and oxidation.
A. In the cytosol, fatty acids are activated by conversion into fatty acyl CoA. Yes, this is true. It does so by consuming an ATP. Fatty acids activated by the Carnitine are transported into the mitochondrial matrix. Okay. By the malate-aspartate shuttle. No. It is done by the carnitine shuttle. This is false. And so far, this looks like our incorrect description.
B. Fatty acids undergo beta oxidation in the mitochondrial matrix to produce Acetyl CoA. They produce multiple Acetyl CoA molecules depending on the length of the fatty acid chain, FADH2, and NADH. This is true.
C. The carnitine shuttle transports activated fatty acids from the cytosol to the mitochondrial matrix. This is true.
So, out of all our statements, only option B is an incorrect one.
Red blood cells do not have mitochondria. Can red blood cells use fatty acid oxidation to produce energy?
Yes
No
For the biochemical pathways listed below, indicate which of the following energy carriers are produced in each: ATP (A), FADH2 (F), NADH (N), or none (X).
a) Glycolysis (_______)
b) β-Oxidation (_______)
c) Kreb’s cycle (_______)
d) Fatty acid activation (_______)