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Fatty acids, along with glycerol, are building blocks of lipids in our bodies and food. The first thing that comes to your mind when you read fatty acids may be that they are fat or made of fat. They are, in fact, the building blocks of fats and other lipids such as waxes. The structure of fatty acids allows for the different types to emerge: saturated and unsaturated fatty acids.
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Jetzt kostenlos anmeldenFatty acids, along with glycerol, are building blocks of lipids in our bodies and food. The first thing that comes to your mind when you read fatty acids may be that they are fat or made of fat. They are, in fact, the building blocks of fats and other lipids such as waxes. The structure of fatty acids allows for the different types to emerge: saturated and unsaturated fatty acids.
Fatty acids are acids belonging to the carboxylic acid group, meaning they consist of a carboxyl group ⎼COOH (carbon-oxygen-hydrogen).
Fatty acids are, like the lipids that they build, organic molecules. This means they contain carbon and hydrogen. They contain oxygen as well.
They are often referred to as long molecules, as they consist of a long, straight chain of carbon and hydrogen atoms, with a carboxyl acid group (―COOH) at one end and a methyl group at the other. The simple formula is RCOOH, where R is the hydrocarbon chain, including the methyl group. The R-group may be saturated or unsaturated.
In addition, fatty acids can vary in terms of the length of the hydrocarbon chain (12 to 20 carbon atoms).
The sheer length of the hydrocarbon chain means that there are many carbon and hydrogen atoms but far fewer oxygen atoms as a part of the COOH. This makes these fatty acids hydrophobic.
There are two different types of fatty acids: saturated and unsaturated.
Saturated fatty acids have only single bonds between carbon atoms in the hydrocarbon chain. As you already know, carbon can form four bonds with other atoms. You also know that the hydrocarbon chain is composed of carbon atoms, to which hydrogen atoms attach. They attach to two of the four bonds of carbon atoms. This means that there are a lot of hydrogen atoms attached to each carbon, so you can say that there is a maximum number of hydrogen atoms in the chain and that the fatty acid is saturated with hydrogen.
Saturated fatty acids are primarily present in food and products from animal sources, such as beef, lamb, butter, cream, etc., and oils derived from plant sources, such as coconut and palm oil.
They are solid at room temperature because the hydrocarbon chain is straight, which in turn allows molecules of saturated fatty acids to pack closely together.
The most common saturated fatty acid is palmitic acid.
Unsaturated fatty acids have single bonds between carbon atoms but double bonds as well. As there are double bonds between some carbon atoms in the hydrocarbon chain, not as many hydrogen atoms can attach to carbon atoms. So you can say that these fatty acids are not saturated or unsaturated with hydrogen.
Double bonds make them liquid at room temperature. As they cause the molecule to bend, they prevent unsaturated fatty acids from packing together as closely as saturated fatty acids.
Depending on how many double bonds are present, there are two different types: mono-unsaturated and poly-unsaturated.
Mono-unsaturated fatty acids have only one double bond between two carbon atoms in the hydrocarbon chain.
Poly-unsaturated fatty acids have two or more double bonds between carbon atoms in the hydrocarbon chain.
In your lipids and fatty acids studies, you will undoubtedly come across essential fatty acids. They are called essential because they are extremely important for our health, especially the heart and the brain, but they cannot be synthesized (made) by our body. Therefore, we need to consume food high in essential fats: fish and other seafood, seeds such as hemp and pumpkin seeds, leafy vegetables, etc.
In humans, there are two: alpha-linolenic acid or ALA and linoleic acid or LA.
ALA is an omega-3, while LA is an omega-6 fatty acid. Both are poly-unsaturated.
Two other omega-3 acids are of great importance for our bodies: eicosapentaenoic (EPA) and docosahexaenoic (DHA). Our bodies can produce these by converting the ALA but in a very limited amount.
The names are quite complicated, and you are not required to learn them by heart. They are mentioned here only to familiarise you with the acronyms ALA, LA, EPA, and DHA.
You may wonder why these acids are called omega-3 and omega-6. This is because, in the long hydrocarbon chain, the carbon atoms are numbered 1, 2, 3, etc. They are numbered starting from the end that has the methyl group. The last letter of the Greek alphabet, the omega (ω), is used to indicate the double bonds in the chain.
Fatty Acids | Saturated | Unsaturated | |
mono-unsaturated | poly-unsaturated | ||
Structure | Long hydrocarbon chain with a methyl group + a carboxyl group = RCOOH | Long hydrocarbon chain with a methyl group + a carboxyl group = RCOOH | Long hydrocarbon chain with a methyl group + a carboxyl group = RCOOH |
Hydrocarbon chain | straight | bent | bent |
Bonds | single bonds | one double bond | multiple double bonds |
State at room temperature | solid | liquid | liquid |
Visual of the structure | Figure 1 | Figure 2 | Figure 3 |
Fatty acids are, along with glycerol, building blocks of lipids.
Fatty acids consist of a long, straight chain of carbon and hydrogen atoms, with a carboxyl acid group (―COOH) at one end and a methyl group CH3 at the other. The simple formula is RCOOH, where R is the hydrocarbon chain. The R-group may be saturated or unsaturated.
Saturated fatty acids have only single bonds between carbon atoms in the hydrocarbon chain. These acids are solid at room temperature. A straight hydrocarbon chain allows for them to pack together closely.
Unsaturated fatty acids have single bonds between carbon atoms but double bonds as well. They are liquid at room temperature due to the bend in the hydrocarbon chain caused by double bonds.
Mono-unsaturated fatty acids have only one double bond between two carbon atoms in the hydrocarbon chain. Poly-unsaturated fatty acids have two or more double bonds between carbon atoms in the hydrocarbon chain.
Essential fatty acids are extremely important for our health, especially the heart and the brain, but they cannot be synthesised (made) by our body. Alpha-linolenic acid or ALA and linoleic acid or LA are essential fatty acids. ALA is an omega-3, while LA is an omega-6 fatty acid.
Fatty acids consist of a long, straight chain of carbon and hydrogen atoms, with a carboxyl acid group (―COOH) at one end and a methyl group -CH3 at the other.
The three main types of fatty acids are saturated, mono-unsaturated, and poly-unsaturated.
Fatty acids are used for the formation of lipids. They are building blocks of lipids, which are essential biological macromolecules.
Palmitic acid (saturated), alpha-linolenic acid or ALA (omega-3) and linoleic acid or LA (omega-6).
Essential fatty acids are polyunsaturated fatty acids vital for our health, especially the heart and the brain, but they cannot be synthesised (made) by our body. Therefore, we need to consume food high in essential fats: fish and other seafood, hemp and pumpkin seeds, leafy vegetables, etc. In humans, there are two: alpha-linolenic acid or ALA and linoleic acid or LA. ALA is an omega-3, while LA is an omega-6 fatty acid. Two other omega-3 acids of great importance for our bodies are: eicosapentaenoic (EPA) and docosahexaenoic (DHA).
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