The bond between the structure of phospholipids that can be broken is a hydrolysis reaction. This involves the cleavage of the bond by adding water, resulting in the breakdown of the phospholipid molecule into its constituent parts.
The fatty acid tails of the phospholipid molecule would reject the polar molecule glucose, as the tails are nonpolar and hydrophobic in nature. Glucose is hydrophilic and would not be compatible with the hydrophobic environment created by the fatty acid tails.
glycerol + two fatty acids +phosphate group
There are two parts to the phospholipid molecule. One is a hydrophobic hydrocarbon chain, which points away from water. The other is a hydrophilic phosphate ionic group, often represented as the "head" of the molecule, which points towards water.
cholesterol
Head and hydrophobic tail
Head and hydrophobic tail
Head and hydrophobic tail
two layers of phospholipids called the lipid bilayer
This is called the hydrophobic 'side' of the phospholipid molecule
This is called the hydrophobic 'side' of the phospholipid molecule
This is called the hydrophobic 'side' of the phospholipid molecule
This is called the hydrophobic 'side' of the phospholipid molecule
There are two parts to the phospholipid molecule. One is a hydrophobic hydrocarbon chain, which points away from water. The other is a hydrophilic phosphate ionic group, often represented as the "head" of the molecule, which points towards water.
The tail of a phospholipid molecule is hydrophobic, while the head is hydrophilic.
The head and tail is a phospholipid molecule
The bond between the structure of phospholipids that can be broken is a hydrolysis reaction. This involves the cleavage of the bond by adding water, resulting in the breakdown of the phospholipid molecule into its constituent parts.