tRNA discrimination by T. thermophilus phenylalanyl-tRNA synthetase at the binding step.

The extent of tRNA recognition at the level of binding by Thermus thermophilus phenylalanyl-tRNA synthetase (PheRS), one of the most complex class II synthetases, has been studied by independent measurements of the enzyme association with wild-type and mutant tRNA(Phe)s as well as with non-cognate tRNAs. The data obtained, combined with kinetic data on aminoacylation, clearly show that PheRS exhibits more tRNA selectivity at the level of binding than at the level of catalysis. The anticodon nucleotides involved in base-specific interactions with the enzyme prevail both in the initial binding recognition and in favouring aminoacylation catalysis.

Structure at 2.6 A resolution of phenylalanyl-tRNA synthetase complexed with phenylalanyl-adenylate in the presence of manganese.

The crystal structure of phenylalanyl-tRNA synthetase (PheRS) from Thermus thermophilus, a class II aminoacyl-tRNA synthetase, complexed with phenylalanyl-adenylate (Phe-AMP) was determined at 2.6 A resolution. Crystals of native PheRS were soaked in a solution containing phenylalanine and ATP in the presence of Mn(2+) ions.

Determination of tRNA(Phe) nucleotides contacting the subunits of Thermus thermophilus phenylalanyl-tRNA synthetase by photoaffinity crosslinking.

The nucleotides of tRNA(Phe) interacting with the subunits of Thermus thermophilus phenylalanyl-tRNA synthetase (the alpha(2)beta(2) heterotetramer) have been determined by photoaffinity crosslinking of randomly s(4)U-monosubstituted tRNA(Phe) transcripts which retain aminoacylation parameters closely similar to those of the native tRNA(Phe). The thiolated transcripts have been fractionated by affinity electrophoresis and separately crosslinked to the enzyme. Sites of crosslinking to the beta subunit have been identified at positions 33 and 39 and crosslinking sites to the alpha subunit have been localized at positions 20, 45 and 47, using alkaline hydrolysis analysis of the crosslinked proteinase K-treated tRNAs.

Interaction of T. thermophilus phenylalanyl-tRNA synthetase with the 3'-terminal nucleotide of tRNAPhe.

The interaction of Thermus thermophilus phenylalanyl-tRNA synthetase (PheRS) with the 3;-terminal nucleotide of tRNAPhe has been studied by affinity labeling to solve the problem arising from X-ray crystallographic study: the binding sites of phenylalanine and the 3;-terminal nucleotide base were revealed to be identical in the crystal structures of PheRS complexed with the substrates. tRNAPhe derivatives containing a photoreactive 4-thiouridine (tRNAPhe-s4U-76) or 6-thioguanosine residue (tRNAPhe-s6G-76) in the 3;-end have been prepared using terminal tRNA nucleotidyl transferase. Kinetic measurements of aminoacylation provide evidence for a functional role of base-specific interactions of the 3;-terminal adenosine in productive interaction of tRNAPhe with the enzyme: tRNAPhe-s4U-76 cannot be aminoacylated; the replacement of A-76 with s6G results in a 370-fold reduction of catalytic efficiency of aminoacylation mainly due to decreased Vmax value.

Phenylalanyl-tRNA synthetase interacts with DNA: studies on activity using deoxyribooligonucleotides.

Phenylalanyl-tRNA synthetase from Thermus thermophilus complexes with short (up to 30 nucleotide length) single-stranded DNA fragments more efficiently than with double-stranded fragments. The complexing between DNA and the protein significantly increases with deoxyribooligonucleotide longer than 20 nucleotides. Using affinity labeling, the binding site of DNA was located near the interface of the alpha- and beta-subunits.