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Saccharomyces cerevisiae Thg1 uses 5'-pyrophosphate removal to control addition of nucleotides to tRNA(His.).

Biochemistry. 2014 Mar 4;53(8):1380-91. doi:10.1021/bi4014648. Epub 2014 Feb 18
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摘要


In eukaryotes, the tRNA(His) guanylyltransferase (Thg1) catalyzes 3'-5' addition of a single guanosine residue to the -1 position (G-1) of tRNA(His), across from a highly conserved adenosine at position 73 (A73). After addition of G-1, Thg1 removes pyrophosphate from the tRNA 5'-end, generating 5'-monophosphorylated G-1-containing tRNA. The presence of the 5'-monophosphorylated G-1 residue is important for recognition of tRNA(His) by its cognate histidyl-tRNA synthetase. In addition to the single-G-1 addition reaction, Thg1 polymerizes multiple G residues to the 5'-end of tRNA(His) variants. For 3'-5' polymerization, Thg1 uses the 3'-end of the tRNA(His) acceptor stem as a template. The mechanism of reverse polymerization is presumed to involve nucleophilic attack of the 3'-OH from each incoming NTP on the intact 5'-triphosphate created by the preceding nucleotide addition. The potential exists for competition between 5'-pyrophosphate removal and 3'-5' polymerase reactions that could define the outcome of Thg1-catalyzed addition, yet the interplay between these competing reactions has not been investigated for any Thg1 enzyme. Here we establish transient kinetic assays to characterize the pyrophosphate removal versus nucleotide addition activities of yeast Thg1 with a set of tRNA(His) substrates in which the identity of the N-1:N73 base pair was varied to mimic various products of the N-1 addition reaction catalyzed by Thg1. We demonstrate that retention of the 5'-triphosphate is correlated with efficient 3'-5' reverse polymerization. A kinetic partitioning mechanism that acts to prevent addition of nucleotides beyond the -1 position with wild-type tRNA(His) is proposed.

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