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 2 arginine molecules must interact at the puromycin binding site to produce inhibition. Besides 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. 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.