Messenger RNA affinity column fractionation of eukaryotic initiation factor and the translation of myosin messenger RNA.

Both myosin mRNA (26 S) and globin mRNA (9 S) have been bound to activated Sepharose 4B. The affinity of initiation factors derived from native 40 S ribosomal subunits from embryonic chick muscle for these messengers has been determined. Although both messengers bind the major components of the muscle factor preparation with the same affinity, some differences are noted in the minor components. There is an enrichment of components which bind myosin mRNA with a high affinity when the 15–18 S initiation factor complex is prepared from initiating 40 S ribosomal subunits found on myosin synthesizing polysomes rather than from total cellular factor preparations. The proteins which have a high binding affinity to myosin mRNA also have a discriminating effect when added to a wheat germ system containing myosin and globin mRNA. This is demonstrated by the fact that the synthesis of myosin heavy chain is specifically stimulated and the number of ribosomes found on myosin mRNA increase five to seven-fold; whereas neither the synthesis of globin nor the number of ribosomes associated with globin mRNA is increased. The components of an impure reticulocyte eukaryotic initiation factor 3 prepared in a similar manner as the muscle factor, do not bind myosin mRNA with the same high affinity, and these fractions separated on the myosin mRNA affinity column did not show a discriminatory effect. These results suggest that specific components of muscle 15–18 S initiation factor preparations have a higher binding affinity for myosin mRNA than globin mRNA and that these proteins may be those factors previously reported to be present which discriminate between mRNAs.     

A translation-like cycle is a quality control checkpoint for maturing 40S ribosome subunits

Assembly factors (AFs) prevent premature translation initiation on small (40S) ribosomal subunit assembly intermediates by blocking ligand binding. However, it is unclear how AFs are displaced from maturing 40S ribosomes, if or how maturing subunits are assessed for fidelity, and what prevents premature translation initiation once AFs dissociate. Here we show that maturation involves a translation-like cycle whereby the translation factor eIF5B, a GTPase, promotes joining of large (60S) subunits with pre-40S subunits to give 80S-like complexes, which are subsequently disassembled by the termination factor Rli1, an ATPase. The AFs Tsr1 and Rio2 block the mRNA channel and initiator tRNA binding site, and therefore 80S-like ribosomes lack mRNA or initiator tRNA. After Tsr1 and Rio2 dissociate from 80S-like complexes Rli1-directed displacement of 60S subunits allows for translation initiation. This cycle thus provides a functional test of 60S subunit binding and the GTPase site before ribosomes enter the translating pool.