5'-Conformation of capped alfalfa mosaic virus ribonucleic acid 4 may reflect its independence of the cap structure or of cap-binding protein for efficient translation.

Most eukaryotic mRNAs are characterized by the presence of a 5'-terminal cap structure (m7GpppN), and removal of the cap or translation of capped mRNAs in the presence of cap analogues (m7G) results in most cases in a significant decrease in the translational efficiency of the mRNAs. One way of explaining the importance of the 5'-cap is that cap-binding proteins recognize the cap structure, destabilize the mRNA secondary structure, and thus allow the 40S ribosomal subunit to bind to the mRNA [Sonenberg, N., Guertin, D., Cleveland, D., & Trachsel, H. (1981) Cell (Cambridge, Mass.) 27, 563-572]. Our data and those of others indicate that the translational efficiency of alfalfa mosaic virus RNA 4 (AMV-4 RNA), a naturally capped RNA, is not affected significantly by cap analogues or by removal of the cap. In order to examine the potential relationship between the function of the cap structure and secondary structure at the 5'-mRNA terminus, partial enzymatic digestion of capped AMV-4 RNA with single strand specific and double strand specific nucleases has been performed, and the experimental data have been compared with computer-generated models of AMV-4 secondary structure. In addition, the in vitro translatability of AMV-4 has been examined as a function of increasing potassium concentration, conditions that are likely to increase mRNA secondary structure. The nuclease-digestion results demonstrate that under native ionic conditions, the 5'-terminus of AMV-4 RNA is predominantly single stranded, although computer modeling and double-strand nuclease digestions indicate that the 5'-terminus can form weak base pairs with internal regions of the molecule.(ABSTRACT TRUNCATED AT 250 WORDS)