2000
DOI: 10.1074/jbc.m005166200
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Metabolism of d-Aminoacyl-tRNAs inEscherichia coli and Saccharomyces cerevisiae Cells

Abstract: Trpby aspartyl-tRNA synthetase and tryptophanyl-tRNA synthetase, respectively, was established in vitro. Furthermore, the two D-aminoacylated tRNAs behaved as substrates of purified E. coli D-Tyr-tRNA Tyr deacylase. These results indicate that an unexpected high number of D-amino acids can impair the bacterium growth through the accumulation of D-aminoacyl-tRNA molecules and that D-Tyr-tRNATyr deacylase has a specificity broad enough to recycle any of these molecules. The same strategy of screening was applied… Show more

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Cited by 135 publications
(172 citation statements)
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“…Considering the likelihood that multiple D-aa-tRNAs might be incorporated by a single elongating ribosome during the translation of a single protein, it is possible that the accumulation of translationally arrested ribosomes and/or of the truncated protein products that they produce could contribute significantly to the observed cytotoxicity of D-amino acids. Given that D-amino acid racemase enzymes are found in the brain (6), that D-amino acids can be aminoacylated onto tRNA by aaRS (8,9), and that tRNA misacylation has been linked to neurodegenerative disorders (36), the translation disorders that we report here provide a plausible molecular mechanism that warrants future consideration as a potential underlying cause for neurodegenerative disease.…”
Section: Discussionmentioning
confidence: 99%
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“…Considering the likelihood that multiple D-aa-tRNAs might be incorporated by a single elongating ribosome during the translation of a single protein, it is possible that the accumulation of translationally arrested ribosomes and/or of the truncated protein products that they produce could contribute significantly to the observed cytotoxicity of D-amino acids. Given that D-amino acid racemase enzymes are found in the brain (6), that D-amino acids can be aminoacylated onto tRNA by aaRS (8,9), and that tRNA misacylation has been linked to neurodegenerative disorders (36), the translation disorders that we report here provide a plausible molecular mechanism that warrants future consideration as a potential underlying cause for neurodegenerative disease.…”
Section: Discussionmentioning
confidence: 99%
“…eukaryotic cells results in the cytotoxicity of several D-amino acids that in the presence of dtd are typically nontoxic (9). This cytotoxicity has been attributed either to compromising the downstream function of proteins into which D-amino acids have been incorporated (34) or to depleting the pool of L-aa-tRNAs from cells via the misacylation of D-amino acids onto tRNAs (35).…”
Section: Discussionmentioning
confidence: 99%
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“…Kinetic experiments show, however, that AspRS does not strongly distinguish between the "left-handed" L-Asp and "right-handed" D-Asp stereoisomers. Indeed, D-Asp-tRNA Asp is produced at detectable levels by Escherichia coli AspRS (26), at a rate only 4,000 times lower than L-Asp-tRNA Asp . To preserve homochirality in vivo (27), editing (28) of D-Asp-tRNA Asp by a D-aminoacyl-tRNA deacylase is performed (26).…”
mentioning
confidence: 99%
“…Consequently, this orthogonal pair was employed in the present study to explore the possibility of incorporating D-Lys into proteins. Meanwhile, although D-Tyrosyl-tRNA deacylase showed broad substrate specificity primarily responsible for the cleavage of the linkage between most D-amino acids and tRNA to avoid the incorporation of D-amino acids by ribosomal protein synthesis machinery, deletion of the dtd gene did not reduce the toxicity of E. coli K37 by various D-amino acids, including D-Lys, [8] suggesting that the hydrolytic activity of D-Tyrosyl-tRNA deacylase towards DLysyl-tRNA might be very weak. In addition, the absence of specific D-Lysyl-tRNA deacylase activity in E. coli further increases the possibility that D-Lysyl-tRNA could be stable in cells and thus permitting D-Lys to be incorporated into proteins.…”
mentioning
confidence: 99%