Abstract
Synthesis of cysteinyl-tRNA(Cys) in methanogenic archaea proceeds by a two-step pathway in which tRNA(Cys) is first aminoacylated with phosphoserine by phosphoseryl-tRNA synthetase (SepRS). Characterization of SepRS from the mesophile Methanosarcina mazei by gel filtration and nondenaturing mass spectrometry shows that the native enzyme exists as an alpha4 tetramer when expressed at high levels in Escherichia coli. However, active site titrations monitored by ATP/PP(i) burst kinetics, together with analysis of tRNA binding stoichiometry by fluorescence spectroscopy, show that the tetrameric enzyme binds two tRNAs and that only two of the four chemically equivalent subunits catalyze formation of phosphoseryl adenylate. Therefore, the phenomenon of half-of-the-sites activity, previously described for synthesis of 1 mol of tyrosyl adenylate by the dimeric class I tyrosyl-tRNA synthetase, operates as well in this homotetrameric class II tRNA synthetase. Analysis of cognate and noncognate reactions by ATP/PP(i) and aminoacylation kinetics strongly suggests that SepRS is able to discriminate against the noncognate amino acids glutamate, serine, and phosphothreonine without the need for a separate hydrolytic editing site. tRNA(Cys) binding to SepRS also enhances the capacity of the enzyme to discriminate among amino acids, indicating the existence of functional connectivity between the tRNA and amino acid binding sites of the enzyme.
Highlights
(SepRS).2 The misacylated Sep-tRNACys is converted to Cys-tRNACys through the action of the pyridoxal phosphatedependent enzyme Sep-tRNA:Cys-tRNA synthase
Unlike the diversity exhibited by phenylalanyl-tRNA synthetase (PheRS), glycyl-tRNA synthetase (GlyRS), and alanyl-tRNA synthetase (AlaRS) [21], far all SepRS enzymes for which the quaternary structure has been examined have been found to be homotetrameric [8]
This is a feature of the overall aminoacylation reaction that is typical of both class I and class II tRNA synthetases, as first shown for the reaction catalyzed by B. stearothermophilus TyrRS [19]
Summary
SepRS, phosphoseryl-tRNA synthetase; PheRS, phenylalanyl-tRNA synthetase; GlyRS, glycyl-tRNA synthetase; AlaRS, alanyl-tRNA synthetase; ME, -mercaptoethanol; DTT, dithiothreitol. Functional Characterization of M. mazei SepRS complex among tetrameric enzymes is that of Thermus thermophilus PheRS; this structure reveals that the ␣22 tetramer binds two tRNA molecules, with each tRNA making contact with all four enzyme monomers [15]. Deletion analysis has shown that removal of the 176 C-terminal amino acids from the 875-amino acid enzyme disrupts the tetrameric structure to give monomers that retain catalytic activity in both adenylate synthesis and alanylation of tRNA [20]. The role of the C-terminal E. coli AlaRS sequence in tetramerization suggests that the oligomeric assembly of homotetrameric tRNA synthetases possess unique features not present among homodimers or heterotetramers. We show that efficient phosphoserylation by SepRS requires methylation of tRNACys at the N1 position of G37 in the anticodon loop, providing a rare example of the need for post-transcriptional modification as a prerequisite for tRNA synthetase function
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