Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:6.1.1.4 (leucyl-tRNA synthetase)
 297 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The solution conformation of eight leucine tRNAs from Phaseolus vulgaris, baker's yeast and Escherichia coli, characterized by long variable regions, and the interaction of four of them with bean cytoplasmic leucyl-tRNA synthetase were studied by phosphate mapping with ethylnitrosourea. Phosphate reactivities in the variable regions agree with the existence of RNA helices closed by miniloops. At the junction of these regions with the T-stem, phosphate 48 is strongly protected, in contrast to small variable region tRNAs where P49 is protected. The constant protection of P22 is another characteristics of leucine tRNAs. Conformational differences between leucine isoacceptors concern the anticodon region, the D-arm and the variable region. In several parts of free tRNALeu species, e.g. in the T-loop, phosphate reactivities are similar to those found in tRNAs of other specificities, indicating conformational similarities among tRNAs. Phosphate alkylation of four leucine tRNAs complexed to leucyl-tRNA synthetase indicates that the 3'-side of the anticodon stem, the D-stem and the hinge region between the anticodon and D-stems are in contact with the plant enzyme.
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PMID:Solution conformation of several free tRNALeu species from bean, yeast and Escherichia coli and interaction of these tRNAs with bean cytoplasmic Leucyl-tRNA synthetase. A phosphate alkylation study with ethylnitrosourea. 218 77

To investigate systematically the RNA sequences necessary for aminoacylation by Escherichia coli leucyl-tRNA synthetase, RNAs with leucylation activity were isolated by in vitro selection from a library of tRNALeu variants possessing randomized sequences in the D-loop, the variable arm, and the T-loop. After two rounds of selection, most of the selected variants showed the following features: (1) the tertiary interaction between nucleotides at positions 15 and 48 was A15-U48; (2) the continuous G18G19 sequence, which is invariant in canonical tRNAs, appeared at the fixed position in the D-loop; and (3) the nucleotide at position 20a in the D-loop was A. These selected nucleotides and their positions, concentrating on the hinge region of tRNA, were identical to those of native tRNALeu. In contrast, although the long variable arm is the most characteristic of the tRNALeu structure, the primary and secondary structures were not correlated with the leucylation activity. These findings indicate that A15-U48, A20a, and G18G19 located at specific positions are involved in the tertiary folding of leucine-accepting tRNA molecules. With increases in the selection cycle, the D-loop sequence and the secondary structure of the variable arm became similar to those of tRNALeu, suggesting that tRNALeu represents an optimized RNA sequence for leucylation.
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PMID:In vitro selection of RNAs aminoacylated by Escherichia coli leucyl-tRNA synthetase. 978 70

The broad-spectrum benzoxaborole antifungal AN2690 blocks protein synthesis by inhibiting leucyl-tRNA synthetase (LeuRS) via a novel oxaborole tRNA trapping mechanism in the editing site. Herein, one set of resistance mutations is at Asp487 outside the LeuRS hydrolytic editing pocket, in a region of unknown function. It is located within a eukaryote/archaea specific insert I4, which forms part of a cap over a benzoxaborole-AMP that is bound in the LeuRS CP1 domain editing active site. Mutational and biochemical analysis at Asp487 identified a salt bridge between Asp487 and Arg316 in the hinge region of the I4 cap of yeast LeuRS that is critical for tRNA deacylation. We hypothesize that this electrostatic interaction stabilizes the cap during binding of the editing substrate for hydrolysis.
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PMID:Characterization of benzoxaborole-based antifungal resistance mutations demonstrates that editing depends on electrostatic stabilization of the leucyl-tRNA synthetase editing cap. 2185 1