Microhelix aminoacylation by a class I tRNA synthetase. Non-conserved base pairs required for specificity.

Department of Biology, Massachusetts Institute of Technology, Cambridge 02139.

Nucleotides in tRNAs that are conserved among isoacceptors are typically considered as candidates for tRNA synthetase recognition, with less importance attached to non-conserved nucleotides. Although the anticodon is an important contributor to the identity of methionine tRNAs, the class I methionine tRNA synthetase aminoacylates microhelices with high specificity. The microhelix substrates are comprised of as few as the 1st 4 base pairs of the acceptor stems of the elongator and initiator methionine tRNAs. For these two tRNAs, only the central 2:71 and 3:70 base pairs are common to the 1st 4 acceptor stem base pairs. We show here that, although the flanking 4:69 base pair is not conserved, a particular substitution at this position substantially reduces the gel electrophoresis-detected aminoacylation of an acceptor stem substrate that has the conserved 2:71 and 3:70 base pairs. Although the two methionine tRNAs have either U:A or G:C at position 4:69, substitution with C:G reduces charging of 9- or 4-base pair substrates that recreate part or all of the acceptor stem of a methionine tRNA. This effect is sufficient for methionine tRNA synthetase to discriminate between the closely related methionine and isoleucine tRNA acceptor stems. The ability to distinguish G:C and U:A from C:G is contrary to a simple scheme for recognition of atoms in the RNA minor groove.

PMID: 7681057 [PubMed - indexed for MEDLINE]