Distinct tRNA recognition strategies used by a homologous family of editing domains prevent mistranslation

Errors in protein synthesis due to mispairing of amino acids with tRNAs jeopardize cell viability. Several checkpoints to prevent formation of Ala- and Cys-tRNA(Pro) have been described, including the Ala-specific editing domain (INS) of most bacterial prolyl-tRNA synthetases (ProRSs) and an autonom...

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Veröffentlicht in:	Nucleic acids research 2014-04, Vol.42 (6), p.3943-3953
Hauptverfasser:	Das, Mom, Vargas-Rodriguez, Oscar, Goto, Yuki, Suga, Hiroaki, Musier-Forsyth, Karin
Format:	Artikel
Sprache:	eng
Schlagworte:	Alanine - metabolism Amino Acyl-tRNA Synthetases - chemistry Amino Acyl-tRNA Synthetases - classification Amino Acyl-tRNA Synthetases - metabolism Anticodon Carrier Proteins - metabolism Cysteine - metabolism Escherichia coli - enzymology Escherichia coli Proteins - metabolism Protein Biosynthesis Protein Structure, Tertiary RNA RNA, Transfer, Amino Acyl - metabolism RNA, Transfer, Pro - chemistry RNA, Transfer, Pro - metabolism
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container_title	Nucleic acids research
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creator	Das, Mom Vargas-Rodriguez, Oscar Goto, Yuki Suga, Hiroaki Musier-Forsyth, Karin
description	Errors in protein synthesis due to mispairing of amino acids with tRNAs jeopardize cell viability. Several checkpoints to prevent formation of Ala- and Cys-tRNA(Pro) have been described, including the Ala-specific editing domain (INS) of most bacterial prolyl-tRNA synthetases (ProRSs) and an autonomous single-domain INS homolog, YbaK, which clears Cys-tRNA(Pro) in trans. In many species where ProRS lacks an INS domain, ProXp-ala, another single-domain INS-like protein, is responsible for editing Ala-tRNA(Pro). Although the amino acid specificity of these editing domains has been established, the role of tRNA sequence elements in substrate selection has not been investigated in detail. Critical recognition elements for aminoacylation by bacterial ProRS include acceptor stem elements G72/A73 and anticodon bases G35/G36. Here, we show that ProXp-ala and INS require these same acceptor stem and anticodon elements, respectively, whereas YbaK lacks inherent tRNA specificity. Thus, these three related domains use divergent approaches to recognize tRNAs and prevent mistranslation. Whereas some editing domains have borrowed aspects of tRNA recognition from the parent aminoacyl-tRNA synthetase, relaxed tRNA specificity leading to semi-promiscuous editing may offer advantages to cells.
doi_str_mv	10.1093/nar/gkt1332
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Several checkpoints to prevent formation of Ala- and Cys-tRNA(Pro) have been described, including the Ala-specific editing domain (INS) of most bacterial prolyl-tRNA synthetases (ProRSs) and an autonomous single-domain INS homolog, YbaK, which clears Cys-tRNA(Pro) in trans. In many species where ProRS lacks an INS domain, ProXp-ala, another single-domain INS-like protein, is responsible for editing Ala-tRNA(Pro). Although the amino acid specificity of these editing domains has been established, the role of tRNA sequence elements in substrate selection has not been investigated in detail. Critical recognition elements for aminoacylation by bacterial ProRS include acceptor stem elements G72/A73 and anticodon bases G35/G36. Here, we show that ProXp-ala and INS require these same acceptor stem and anticodon elements, respectively, whereas YbaK lacks inherent tRNA specificity. Thus, these three related domains use divergent approaches to recognize tRNAs and prevent mistranslation. 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Several checkpoints to prevent formation of Ala- and Cys-tRNA(Pro) have been described, including the Ala-specific editing domain (INS) of most bacterial prolyl-tRNA synthetases (ProRSs) and an autonomous single-domain INS homolog, YbaK, which clears Cys-tRNA(Pro) in trans. In many species where ProRS lacks an INS domain, ProXp-ala, another single-domain INS-like protein, is responsible for editing Ala-tRNA(Pro). Although the amino acid specificity of these editing domains has been established, the role of tRNA sequence elements in substrate selection has not been investigated in detail. Critical recognition elements for aminoacylation by bacterial ProRS include acceptor stem elements G72/A73 and anticodon bases G35/G36. Here, we show that ProXp-ala and INS require these same acceptor stem and anticodon elements, respectively, whereas YbaK lacks inherent tRNA specificity. Thus, these three related domains use divergent approaches to recognize tRNAs and prevent mistranslation. 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subjects	Alanine - metabolism Amino Acyl-tRNA Synthetases - chemistry Amino Acyl-tRNA Synthetases - classification Amino Acyl-tRNA Synthetases - metabolism Anticodon Carrier Proteins - metabolism Cysteine - metabolism Escherichia coli - enzymology Escherichia coli Proteins - metabolism Protein Biosynthesis Protein Structure, Tertiary RNA RNA, Transfer, Amino Acyl - metabolism RNA, Transfer, Pro - chemistry RNA, Transfer, Pro - metabolism
title	Distinct tRNA recognition strategies used by a homologous family of editing domains prevent mistranslation
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