Abstract
Translation initiation factor eIF1A is highly conserved among all eukaryotes, and performs essential functions in the formation of 43S preinitiation complex and mRNA scanning. In this study, we found that RNA annealing activity is intrinsically associated with eIF1A. Schizosaccharomyces pombe, Saccharomyces cerevisiae, and human eIF1As were isolated in their recombinant forms in order to determine their RNA annealing activities. A truncated eIF1A devoid of both N- and C-terminal domains proved most active, indicating that the activity is localized in the OB-fold domain. Some N- or C-terminal His tag fusions were shown to make the proteins inactive. This is probably caused by shielding of the RNA binding surface, as the proteins were activated via partial proteolytic digestion. We also found that eIF1A formed a stable complex with a short double-stranded RNA in gel mobility shift assays. Our results indicate that eIF1A may function as an RNA chaperone, inducing conformational changes in rRNA in the 43S preinitiation complex.
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