Calculating Net Protein Charge

1. Calculating Net Protein Charge

2. The Problem • A protein’s net charge depends on the number of charged amino acids it contains and the pH of its environment. • Theisoelectric point is the pH at which the net charge is zero. • Each amino acid has a different dissociation constant, KD. • The amino acids that can be ionized at physiological pHs are: aspartate (D), glutamate (E), lysine (K), arginine (R), and histidine (H). • Also, the N and C termini can be ionized. • The important point is: most of these amino acids are not fully ionized or fully unionized at physiological pHs. • It is your job to calculate the proportion of each amino acid that is ionized at a given pH. Once this is done, calculating the net charge is straightforward. • Multiply the proportion by the number of that amino acid, taking into account the differences between acidic (-COOH) and basic (-NH2) types.

3. Amino Acids Contributing to Charge • Charged amino acids come in two forms: • Acidic amino acids (and the C-terminal) are in the –COOH form (uncharged) at low pH and in the –COO- form (-1 charge) at high pHs. • These include aspartic acid (D) and glutamic acid (E) • Basic amino acids (and the N-terminal) are in the –NH3+ form (+1 charge) at low pH and in the –NH2 form (uncharged) at high pH. • These include lysine (K), arginine (R) and histidine (H). • All other amino acids do not affect charge under physiological conditions.

4. Dissociation Constant • The association and dissociation of the H+ with the amino acid is governed by its dissociation constant, KD. • Dissociation constant is the ratio of the concentration of the dissociated forms to the concentration of the combined form. • Each amino acid has a separate dissociation constant. • The equation below uses [R-] to indicate the concentration of the amino acid when the H+ is dissociated from it. • The pK value is analogous to pH. • pK = -log10KD • KD = 10-pK

5. Calculating the Proportion with H Associated We rearrange to get: • Starting with the dissociation constant equation, we need to derive an equation for the proportion of amino acid molecules that have H associated at a given pH. Substituting this into the proportion equation: Some algebraic manipulation: We want: Start with the definition of dissociation constant: Our final result:

6. Acidic and Basic Amino Acids • The proportion equation calculates the proportion of a given amino acid that has H associated with it at a given pH. • Recalling that [H+] = 10-pH and pH = -log10[H+] • For the basic amino acids (H, K, and R) and the N-terminus, the form with H associated is –NH3+, which has a +1 charge. • Thus, the contribution to net charge for each of these amino acids is just the number of each amino acid multiplied by the proportion that has H associated. • For the acidic amino acids (D and E) and the C-terminus, the form with H associated is –COOH, which is uncharged. Thus, the proportion that is in the charged form ( -COO-) is 1 minus the proportion with H associated. • Also, remember that the charged form has a negative charge, The net contribution from acidic amino acids needs to be subtracted from the contribution of the basic amino acids.

7. Summary • Calculate the proportion of each ionizable amino acid (plus the N- and C-termini) that have H associated at the given pH. • For the acidic amino acids, calculate the percentage that are charged by taking one minus the proportion with H associated. • Multiply the proportion charged by the number of each amino acid present in the protein. • Subtract the negative charge total from the positive charge total to get the net charge.