ArfA recruits RF2 into stalled ribosomes.

During translation in Escherichia coli, the ribosome rescue factor YaeJ and the alternative ribosome rescue factor (ArfA, previously called YhdL) can release stalled ribosomes from mRNA. Here, I used a reconstituted cell-free protein synthesis system to examine YaeJ- and ArfA-dependent recycling of stalled ribosomes, in which mRNA lacks in-frame stop codons. It is shown that YaeJ alone could recycle the ribosome but that ArfA required the presence of release factor 2 (RF2). Furthermore, I show that RF2 binds to stalled ribosomes only in the presence of ArfA, demonstrating that ArfA recruits RF2 into the A site of the ribosome to facilitate peptidyl-tRNA hydrolysis. It is also demonstrated that the efficiency of the ArfA-dependent process decreases rapidly with an increase in mRNA length downstream of the A site of the ribosome whereas YaeJ function is maintained on mRNA with sufficient length. From the results, I discuss differences of in vivo roles of these two systems in addition to the well-known tmRNA-dependent trans-translation system.