ISOELECTRIC POINTS
What happens when we titrate an amino acid?
When an amino acid is titrated, its titration curve indicates the reaction of each functional group with hydrogen ion. In alanine, the carboxyl and amino groups are the two titratable groups. At very low pH, alanine has a protonated (and thus uncharged) carboxyl group and a positively charged amino group that is also protonated. Under these conditions, the alanine has a net positive charge of 1. As base is added, the carboxyl group loses its proton to become a negatively charged carboxylate group, and the pH of the solution increases. Alanine now has no net charge. As the pH increases still further with addition of more base, the protonated amino group (a weak acid) loses its proton, and the alanine molecule now has a negative charge of 1. The titration curve of alanine is that of a diprotic acid.
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In histidine, the imidazole side chain also contributes a titratable group. At very low pH values, the histidine molecule has a net positive charge of 2 because both the imidazole and amino groups have positive charges. As base is added and the pH increases, the carboxyl group loses a proton to become a carboxylate as before, and the histidine now has a positive charge of 1. As still more base is added, the charged imidazole group loses its proton, and this is the point at which the histidine has no net charge. At still higher values of pH, the amino group loses its proton, as was the case with alanine, and the histidine molecule now has a negative charge of 1. The titration curve of histidine is that of a triprotic acid.
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The titratable groups of each of the amino acids have characteristic pKa values. The pKa values of a-carboxyl groups are fairly low, around 2. The pKa values of amino groups are much higher, with values ranging from 9 to 10.5. The pKa values of side-chain groups, including side-chain carboxyl and amino groups, depend on the groups’ chemical nature.The classification of an amino acid as acidic or basic depends on the pKa of the side chain as well as the chemical nature of the group. Histidine, lysine, and arginine are considered basic amino acids because each of their side chains has a nitrogen containing group that can exist in either a protonated or deprotonated form. However, histidine has a pKa in the acidic range. Aspartic acid and glutamic acid are considered acidic because each has a carboxylic acid side chain with a low pKa value. These groups can still be titrated after the amino acid is incorporated into a peptide or protein, but the pKa of the titratable group on the side chain is not necessarily the same in a protein as it is in a free amino acid. In fact, it can be very different. For example, a pKa of 9 has been reported for an aspartate side chain in the protein thioredoxin.
The fact that amino acids, peptides, and proteins have different pKa values gives rise to the possibility that they can have different charges at a given pH. Alanine and histidine, for example, both have net charges of –1 at high pH, above 10; the only charged group is the carboxylate anion. At lower pH, around 5, alanine is a zwitterion with no net charge, but histidine has a net charge of 1 at this pH because the imidazole group is protonated. This property is useful in electrophoresis, a common method for separating molecules in an electric field. This method is extremely useful in determining the important properties of proteins and nucleic acids. The pH at which a molecule has no net charge is called the isoelectric pH, or isoelectric point (given the symbol pI). At its isoelectric pH, a molecule will not migrate in an electric field. This property can be put to use in separation methods. The pI of an amino acid can be calculated by the following equation:
The pI of any amino acid is the average of the two acid-dissociation constants that involve the neutral zwitterion.
- The 4 amino acids with either a strongly or weakly acidic chain, pI is the average of the two lowest pKa values
- The 13 amino acids with a neutral side chain, pI is the average of pKa1 and pKa2
- The 3 amino acids with a basic side chain, pI is the average of the two highest pKa values