Contact areas of the turnip yellow mosaic virus tRNA-like structure interacting with yeast valyl-tRNA synthetase.

The tRNA-like structure of turnip yellow mosaic virus is known to be efficiently recognized and aminoacylated by valyl-tRNA synthetase. The present work reports domains in the isolated tRNA-like fragment (159 terminal nucleotides at the 3'-end of the two viral RNAs) in contact with purified yeast valyl-tRNA synthetase. These domains were determined in protection experiments using chemical and enzymatic structural probes. In addition, new data, re-enforcing the validity of the tertiary folding model for the native RNA, are given. In particular, at the level of the amino acid accepting arm it was found that the two phosphate groups flanking the three guanine residues of loop I are inaccessible to ethylnitrosourea. This is in agreement with a higher-order structure of this loop involving "pseudo knotting", as proposed by Rietveld et al. (1982). Valyl-tRNA synthetase efficiently protects the viral RNA against digestion by single-strand-specific S1 nuclease at the level of the anticodon loop. With cobra venom ribonuclease, specific for double-stranded regions of RNA, protection was detected on both sides of the anticodon arm and at the 5'-ends of loop I, a region that is involved in the building up of the acceptor arm. Loop II, which is topologically homologous to the T-loop of canonical tRNA was likewise protected. Weak protection was observed between arms I and II, and at the 3'-side of arm V. This arm, located at the 5'-side of arm IV (homologous to the D-arm of tRNA), does not participate in the pseudo-knotted model of the valine acceptor arm. Ethylnitrosourea was used to determine the phosphates of the tRNA-like structure in close contact with the synthetase. These are grouped in several stretches scattered over the RNA molecule. In agreement with the nuclease digestion results, protected phosphates are located in arms I, II, and III. Additionally, this chemical probe permits detection of other protected phosphates on the 3'-side of arm IV and on both sides of arm V. When displayed in the three-dimensional model of the tRNA-like structure, protected areas are localized on both limbs of the L-shaped RNA. It appears that valyl-tRNA synthetase embraces the entire tRNA-like structure. This is reminiscent of the interaction model of canonical yeast tRNAVal with its cognate synthetase.