Lipid Diagrams & Properties (AQA A Level Biology)
Revision Note
Written by: Lára Marie McIvor
Reviewed by: Lucy Kirkham
Lipid Diagrams & Properties
Triglycerides are a form of lipid
They are made up of one molecule of glycerol with three fatty acids attached to it
These fatty acids have long hydrocarbon ‘tails’
Fatty acids occur in two forms:
saturated fatty acids
unsaturated fatty acids
The difference between these fatty acid types is found in their hydrocarbon tails
Saturated fatty acids
In saturated fatty acids, the bonds between the carbon atoms in the hydrocarbon tail are all single bonds
The fatty acid is said to be ‘saturated’ with hydrogen
This means that each carbon atom in the hydrocarbon tail (except for the final carbon atom) is bonded to two hydrogen atoms
![[Saturated fatty acid example.png], downloadable AS & A Level Biology revision notes](https://cdn.savemyexams.com/cdn-cgi/image/f=auto,width=3840/https://cdn.savemyexams.com/uploads/2021/02/Saturated-fatty-acid-example-1.png)
An example of a saturated fatty acid
Unsaturated fatty acids
In unsaturated fatty acids, the bonds between the carbon atoms in the hydrocarbon tail are not all single bonds
There is at least one carbon-carbon double bond (in some unsaturated fatty acids there are many carbon-carbon double bonds)
These double bonds cause the hydrocarbon tail of unsaturated fatty acids to kink (bend slightly), meaning they are not as straight as saturated fatty acids
The fatty acid is said to be ‘unsaturated’ because the hydrocarbon tail does not contain the maximum number of hydrogen atoms possible
This is because each carbon atom in a carbon-carbon double bond can only bond to one hydrogen atom (instead of two)
An example of an unsaturated fatty acid
Properties of triglycerides
Triglycerides are mainly used as energy storage molecules
This is because the long hydrocarbon tails of the fatty acids in triglycerides contain large amounts of chemical energy, which can be released when the fatty acids are broken down
Triglycerides are also suitable as energy storage molecules because they are insoluble, meaning that they don’t affect the water potential inside the cell
Inside cells, triglycerides form insoluble droplets, with the hydrophobic (water-repelling) fatty acids on the inside and the glycerol molecules on the outside
Triglycerides are suitable as energy storage molecules as they form insoluble droplets inside cells
Properties of phospholipids
Phospholipids are another kind of lipid
Phospholipids are similar in structure to triglycerides
In phospholipids, one of the three fatty acid molecules attached to glycerol is replaced by a phosphate group
This phosphate group is hydrophilic (water-loving), whereas the two fatty acids are hydrophobic (like in triglycerides)
This makes phospholipids suitable for making up the bilayer of cell membranes, with the fatty acids facing inwards and the phosphate groups facing outwards
This is also useful as it means the centre of the phospholipid bilayer is hydrophobic, meaning water-soluble substances cannot easily pass through
This allows the cell membrane to act as a barrier, controlling what substances enter and leave the cell
Phospholipids are suitable for making up cell membranes as they form a bilayer
Examiner Tips and Tricks
Make sure you learn the structures of triglycerides and phospholipids, as well as how to recognise from a diagram whether a fatty acid is saturated or unsaturated (check for any carbon-carbon double bonds)!Make sure you also learn which parts of triglycerides and phospholipids are hydrophobic and which parts are hydrophilic, as this is what gives these molecules their useful properties in cells.
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