Abstract
Hydantoinases are industrial enzymes with varying degree of activities on variable substrates to form different products. Although, few of the hydantoinase structures were known recently, the functional details and active site mechanism were not clearly understood yet. In a structure determination effort we reported that Bacillus sp. AR9 hydantoinase contains uncarboxylated lysine in the active site, whereas all the other hydantoinases have a carboxylated active site lysine. Here we describe the importance of carboxylated lysine for differential activities by making lysine mutations as well as carboxylating the lysine in a D-hydantoinase from Bacillus sp. AR9. The lysine to alanine and lysine to arginine mutations showed reduced activities whereas carboxylation of the lysine has enhanced the activity. Theoretical studies involving the calculation of electrostatic potentials for the hydroxide ion between the two metal ions present in the active site suggest that the presence of carboxylated lysine increases the nucleophilicity of the hydroxide.
Keywords: Metalloenzyme, lysine modifications, TIM-barrel, nucleophilicity of water, enzyme activityMetalloenzyme, lysine modifications, TIM-barrel, nucleophilicity of water, enzyme activity