Ribosomes are stalled during in vitro translation of alfalfa mosaic virus RNA 1

Abstract

In the presence of plant tRNAs the full-length translation product of alfalfa mosaic virus RNA 1 is produced in rabbit reticulocytes only at low mRNA concentration. At higher mRNA concentration translation is restricted to the 5'' half of RNA 1. At high mRNA concentration the full-length product can be formed when additional plant tRNA and glutamine are supplied to the translation mixture. In contrast, in the presence of yeast or calf liver tRNA the translation pattern of alfalfa mosaic virus RNA 1 always results in the synthesis of the full-length product. Pulse-chase experiments in the presence of plant tRNAs show that the ribosomes pause at several positions in the 5'' half of RNA 1. The pausing time is different at the different ''halting places''. Protein synthesis is resumed upon addition of glutamine, even when the addition is delayed for more than 3 h after the start of protein synthesis. Only one tRNA species, purified from wheat germ or tobacco, could promote full-length translation of RNA 1. This tRNA can be charged with glutamine. Analysis of the position of glutamine codons on RNA 1 shows a correlation between the positions of the CAA codons and the halting places of the ribosomes. The CAA codon (for any other codon) on its own cannot be responsible for the pausing of the ribosomes, since a variety of RNAs, known to contain all sense codons, are translated efficiently in rabbit reticulocyte lysates in the presence of plant tRNAs. Apparently, other elements can restrict decoding of normal codons during protein chain elongation.