Turnover of polysomes in amino acid-starved Escherichia coli

Abstract

Valyl-tRNA deprivation causes a threefold reduction of the polysome content of stringent cells but not of relaxed cells. The polysomes of valyl-tRNA-deprived stringent and relaxed cells decay in the presence of rifampin at a rate very similar to that observed in growing cells. Polysome assembly and decay were studied in valyl-tRNA-deprived stringent and relaxed strains after first causing the pre-existing polysomes to be converted to monosomes by glucose starvation. The capacity for polysome assembly is normal in relaxed cells and is reduced by a factor of three in stringent cells. The polysomes which reassemble in glucose-starved cells also decay in the presence of rifampin at a rate similar to that of the polysomes of growing cells. The polysomes which assemble in relaxed cells are potentially functionally competent, as shown by their ability to incorporate amino acids in an in vitro proteinsynthesizing system. Valyl-tRNA deprivation causes an intense shift in the polysome size distribution in stringent cells, but only a moderate shift in relaxed cells. A model for the control of the polysome level in amino acid-starved cells, based on these observations, is presented here.