Structure, mechanism and evolution of chloroplast transfer RNA processing systems

Abstract

Chloroplasts of land plants have an active transfer RNA processing system, consisting of an RNase P-like 5′ endonuclease, a 3′ endonuclease, and a tRNA:CCA nucleotidyltransferase. The specificity of these enzymes resembles more that of their eukaryotic counterparts than that of their cyanobacterial predecessors. Most strikingly, chloroplast RNase P activity almost certainly resides in a protein, rather than in an RNA protein complex as in Bacteria, Archaea, and Eukarya. The chloroplast enzyme may have evolved from a preexisting chloroplast NADP-binding protein. Chloroplast RNase P cleaves pre-tRNA by a reaction mechanism in which at least one of the Mg²⁺ ions utilized by the bacterial ribozyme RNase P is replaced by an amino acid side chain.