Investigation of the role of lysine in the subunit contact regions of rabbit muscle aldolase.

Rabbit muscle aldolase (E.C. 4. 1. 2. 13) was guanidinated by reaction with O-methylisourea. Up to 60% of the lysine residues can be guanidinated without any dissociation of the tetramer but with a complete loss of enzymatic activity. Native and guanidinated aldolase can be dissociated into monomers in 2.4 m MgCl₂ with only slight change in conformation of the subunit. Nitrotroponylation of guanidinated aldolase in dilute buffer gives no reaction whereas in 2.4 m MgCl₂ nitrotroponlylation modifies another 8–12% of the lysine residues. Removal of MgCl₂ by dialysis affords 100% recovery of activity and tetrameric structure for native aldolase and 100% recovery of tetrameric structure for guanidinated aldolase. In contrast nitrotroponylated and guanidinated aldolase remains monomeric before precipitating as the MgCl₂ concentration is lowered. It is concluded that lysine may be involved in the protein-protein interaction of the subunit contact domains of muscle aldolase.