N-glycohydrolysis of adenosine diphosphoribosyl arginine linkages by dinitrogenase reductase activating glycohydrolase (activating enzyme) from Rhodospirillum rubrum.

Abstract

The reaction catalyzed by the activating enzyme for dinitrogenase reductase from Rhodospirillum rubrum has been studied using an ADP-ribosyl hexapeptide, obtained from proteolysis of inactive dinitrogenase reductase, and synthetic analogs such as N alpha-dansyl-N omega-ADP-ribosylarginine methyl ester. The activating enzyme catalyzed N-glycohydrolysis of the ribosyl-guanidinium linkage releasing ADP-ribose and regenerating an unmodified arginyl guanidinium group. Optimal glycohydrolysis of the low molecular weight substrates occurred at pH 6.6 and required 1 mM MnCl2, but did not require ATP. The ADP-ribosyl hexapeptide (Km 11 microM), N alpha-dansyl-N omega-ADP-ribosylarginine methyl ester (Km 12 microM), N alpha-dansyl-N omega-ADP-ribosylarginine (Km 12 microM), N alpha-dansyl-N omega-1,N6-etheno-ADP-ribosylarginine methyl ester (Km 11 microM), and N alpha-dansyl-N omega-GDP-ribosylarginine methyl ester (Km 11 microM) were comparable substrates. N omega-ADP-ribosylarginine (Km 2 mM) was a poor substrate, and the activating enzyme did not catalyze N-glycohydrolysis of N alpha-dansyl-N omega-5'-phosphoribosylarginine methyl ester or N alpha-dansyl-N omega-ribosylarginine methyl ester. 13C NMR of N alpha-tosyl-N omega-ADP-ribosylarginine methyl ester established that the activating enzyme specifically hydrolyzed the alpha-ribosyl-guanidinium linkage. The beta-linked anomer was hydrolyzed only after anomerization to the alpha configuration. We recommend [arginine(N omega-ADP-alpha-ribose)]dinitrogenase reductase N-glycohydrolase (dinitrogenase reductase activating) and dinitrogenase reductase activating glycohydrolase as the systematic and working names for the activating enzyme.