Interaction of Arginine with the Ribosomal Peptidyl Transferase Centre

Abstract

Arginine inhibits the formation of acetylleucyl-puromycin from C(U)-A-C-C-A-LeuAc and puromycin ('fragment reaction'), catalized by Escherichia coli and yeast ribosomes. From 18 different L-amino acids assayed, arginine was the most effective in producing inhibition (50% inhibition at 20 mM, with 1 mM puromycin). L-Argininamide and D-arginine gave about the same inhibition as L-arginine. The inhibition by L-arginine is competitive with respect to puromycin. The plot of the slopes obtained in a Lineweaver and Burk representation versus [Arg]2, and the plot of 1/v versus [Arg]2 at a fixed concentration of puromycin, are linear, which seems to indicate that two arginine molecules must interact at the puromycin binding site to produce inhibition. In addition to the 'fragment reaction', arginine inhibits the non-enzymatic binding of AcPhe-tRNA, C(U)-A-C-C-A-Leu and C(U)-A-C-C-A-LeuAc to ribosomes. However, it does not inhibit poly(U)-directed polyphenylalanine synthesis or the reaction of puromycin with AcPhe-tRNA previously bound to the peptidyl site. The results agree with arginine binding to the acceptor site, and with a sequential mechanism for the 'fragment reaction', puromycin binding first.