Abstract
Prolyl-tRNA synthetases (ProRSs) from all three domains of life have been shown to misactivate cysteine and to mischarge cysteine onto tRNAPro. Although most bacterial ProRSs possess an amino acid editing domain that deacylates mischarged Ala-tRNAPro, editing of Cys-tRNAPro has not been demonstrated and a double-sieve mechanism of editing does not appear to be sufficient to eliminate all misacylated tRNAPro species from the cell. It was recently shown that a ProRS paralog, the YbaK protein from Haemophilus influenzae, which is homologous to the ProRS editing domain, is capable of weakly deacylating Ala-tRNAPro. This function appears to be redundant with that of its corresponding ProRS, which contains a canonical bacterial editing domain. In the present study, we test the specificity of editing by H. influenzae YbaK and show that it efficiently edits Cys-tRNAPro and that a conserved Lys residue is essential for this activity. These findings represent the first example of an editing domain paralog possessing altered specificity and suggest that similar autonomous editing domains could act upon different mischarged tRNAs thus providing cells with enhanced proofreading potential. This work also suggests a novel mechanism of editing wherein a third sieve is used to clear Cys-tRNAPro in at least some organisms.
Highlights
Prolyl-tRNA synthetases (ProRSs) from all three domains of life have been shown to misactivate cysteine and to mischarge cysteine onto tRNAPro
Whereas the connective polypeptide 1 (CP1) editing domain of class I synthetases is highly conserved through evolution, phylogenetic analyses have revealed that the class II-specific editing domain found in all alanyl-tRNA synthetase (AlaRS) and bacterial and eukaryotic ThrRSs is missing in archaeabacterial ThrRSs
Hydrolysis of Lys-tRNAPro was not observed, which is in agreement with previous studies using E. coli ProRS [16]
Summary
Prolyl-tRNA synthetases (ProRSs) from all three domains of life have been shown to misactivate cysteine and to mischarge cysteine onto tRNAPro. most bacterial ProRSs possess an amino acid editing domain that deacylates mischarged Ala-tRNAPro, editing of CystRNAPro has not been demonstrated and a double-sieve mechanism of editing does not appear to be sufficient to eliminate all misacylated tRNAPro species from the cell. We test the specificity of editing by H. influenzae YbaK and show that it efficiently edits Cys-tRNAPro and that a conserved Lys residue is essential for this activity These findings represent the first example of an editing domain paralog possessing altered specificity and suggest that similar autonomous editing domains could act upon different mischarged tRNAs providing cells with enhanced proofreading potential. We investigate the aminoacyl-tRNA specificity of the H. influenzae YbaK protein and provide evidence for the existence of a third sieve that functions in the editing of Cys-tRNAPro
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