Abstract

Native methionyl-tRNA synthetase from Escherichia coli (a dimer of molecular weight 172,000) can be converted by mild proteolysis into a well-defined monomeric fragment of molecular weight 64,000. This fragment retains full specificity towards methionine and tRNA Met, and has unimpaired activity in both the activation and aminoacylation reactions. This paper describes the structure of the active fragment, as determined by an X-ray crystallographic study at 2.5 Å resolution using five heavy-atom derivatives. The elongated molecule (90 Å × 52 Å × 44 Å) contains several α-helices, which account for 43% of the residues. Three domains can be distinguished in the structure: (1) a central core beginning at the N-terminus, consisting of a five-stranded parallel pleated sheet with α-helices connecting the β-strands; (2) a second domain with less-ordered structure, inserted between the third and fourth strand of the central sheet; (3) a C-terminal domain, beginning after the fifth parallel strand, very rich in α-helices. These three domains are organized in a biglobular structure; one globule contains the first and the second domain (N-terminal globule), the other the third domain. The two globules, linked together by a single chain, are separated by a large cleft. The most salient feature of the structure is the presence, in the N-terminal domain, of a “nucleotide binding fold” similar to that first observed in dehydrogenases. This makes methionyl-tRNA synthetase, and possibly all aminoacyl-tRNA synthetases, a new member of this family of nucleotide binding proteins possessing the characteristic “Rossmann fold”.

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