Hans-Ulrich Thomann scite author profile

We describe a convenient, simple and novel continuous spectrophotometric method for the determination of aminoacyl-tRNA synthetase activity. The assay relies upon the measurement of inorganic pyrophosphate generated in the first step of the aminoacylation of a tRNA. Pyrophosphate release is coupled to inorganic pyrophosphatase, to generate phosphate, which in turn is used as the substrate of purine nucleoside phosphorylase to catalyze the N-glycosidic cleavage of 2-amino 6-mercapto 7-methylpurine ribonucleoside. Of the reaction products, ribose 1-phosphate and 2-amino 6-mercapto 7-methylpurine, the latter has a high absorbance at 360 nm relative to the nucleoside and hence provides a spectrophotometric signal that can be continuously followed. The non-destructive nature of the spectrophotometric assay allowed the re-use of the tRNAs in question in successive experiments. The usefulness of this method was demonstrated for glutaminyl-tRNA synthetase (GlnRS) and tryptophanyl-tRNA synthetase. Initial velocities measured using this assay correlate closely with those assayed by quantitation of [3H]Gln-tRNA or [14C]Trp-tRNA formation respectively. In both cases amino acid transfer from the aminoacyl adenylate to the tRNA represents the rate determining step. In addition, aminoacyl adenylate formation by aspartyl-tRNA synthetase was followed and provided a more sensitive means of active site titration than existing techniques. Finally, this novel method was used to provide direct evidence for the cooperativity of tRNA and ATP binding to GlnRS.

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Transfer RNA-dependent cognate amino acid recognition by an aminoacyl-tRNA synthetase.

Hong

Ibba

Weygand-Đurašević

et al. 1996

The EMBO Journal

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An investigation of the role of tRNA in the catalysis of aminoacylation of Escherichia coli glutaminyl‐tRNA synthetase (GlnRS) has revealed that the accuracy of specific interactions between GlnRS and tRNAGln determines amino acid affinity. Mutations in GlnRS at D235, which makes contacts with nucleotides in the acceptor stem of tRNAGln, and at R260 in the enzyme's active site were found to be independent during tRNA binding but interactive for aminoacylation. Characterization of mutants of GlnRS at position 235, showed amino acid recognition to be tRNA mediated. Aminoacylation of tRNA(CUA)Tyr [tyrT (UAG)] by GlnRS‐D235H resulted in a 4‐fold increase in the Km for the Gln, which was reduced to a 2‐fold increase when A73 was replaced with G73. These and previous results suggest that specific interactions between GlnRS and tRNAGln ensure the accurate positioning of the 3′ terminus. Disruption of these interactions can change the Km for Gln over a 30‐fold range, indicating that the accuracy of aminoacylation is regulated by tRNA at the level of both substrate recognition and catalysis. The observed role of RNA as a cofactor in optimizing amino acid activation suggests that the tRNAGln‐GlnRS complex may be partly analogous to ribonucleoprotein enzymes where protein‐RNA interactions facilitate catalysis.

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Genes, variant genes and pseudogenes of the human tRNAVal gene family expression and pre-tRNA maturation in vitro

Thomann

Schmutzler

Hüdepohl

et al. 1989

Journal of Molecular Biology

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Functional Connectivity Between tRNA Binding Domains in Glutaminyl-tRNA Synthetase

Sherman

Thomann

öll

1996

Journal of Molecular Biology

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