Initiator tRNA Binding by e/aIF5B, the Eukaryotic/Archaeal Homologue of Bacterial Initiation Factor IF2

To carry initiator Met-tRNAi Met to the small ribosomal subunit, eukaryal and archaeal cells use a heterotrimeric factor called e/aIF2. These cells also possess a homologue of bacterial IF2 called e/aIF5B. Several results indicate that the mode of action of e/aIF5B resembles some function of bacteri...

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Veröffentlicht in:	Biochemistry (Easton) 2005-11, Vol.44 (47), p.15594-15601
Hauptverfasser:	Guillon, Laurent, Schmitt, Emmanuelle, Blanquet, Sylvain, Mechulam, Yves
Format:	Artikel
Sprache:	eng
Schlagworte:	Archaeal Proteins Archaeal Proteins - metabolism Binding Sites Biochemistry, Molecular Biology Life Sciences Peptide Initiation Factors Peptide Initiation Factors - metabolism Peptide Initiation Factors - physiology Prokaryotic Initiation Factor-2 Ribosomes Ribosomes - metabolism RNA, Transfer, Met RNA, Transfer, Met - metabolism Saccharomyces cerevisiae Proteins Saccharomyces cerevisiae Proteins - metabolism Saccharomyces cerevisiae Proteins - physiology Structural Homology, Protein
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creator	Guillon, Laurent Schmitt, Emmanuelle Blanquet, Sylvain Mechulam, Yves
description	To carry initiator Met-tRNAi Met to the small ribosomal subunit, eukaryal and archaeal cells use a heterotrimeric factor called e/aIF2. These cells also possess a homologue of bacterial IF2 called e/aIF5B. Several results indicate that the mode of action of e/aIF5B resembles some function of bacterial IF2. The e/aIF5B factor promotes the joining of ribosomal subunits. Moreover, there is genetic evidence that the factor participates in the binding of initiator tRNA to the small ribosomal subunit. However, up to now, an interaction between e/aIF5B and initiator tRNA was not evidenced. In this study, we use an assay based on protection of aminoacyl-tRNA against spontaneous deacylation to demonstrate that archaeal aIF5B indeed can interact with initiator tRNA. In complex formation, aIF5B shows specificity toward the methionyl moiety of the ligand. The complex between Saccharomyces cerevisiae eIF5B and methionylated initiator tRNA is less stable than that formed with aIF5B. In addition, this complex is almost indifferent to the side chain of the esterified amino acid. These results support the idea that, beyond the channeling of Met-tRNAi Met to the 40S subunit by e/aIF2, e/aIF5B comes to interact with initiator tRNA on the ribosome. Recognition of an aminoacylated tRNA species at this site would then allow translation to begin. In the case of archaea, this checkpoint would also include the verification of the presence of a methionine at the P site.
doi_str_mv	10.1021/bi051514j
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These results support the idea that, beyond the channeling of Met-tRNAi Met to the 40S subunit by e/aIF2, e/aIF5B comes to interact with initiator tRNA on the ribosome. Recognition of an aminoacylated tRNA species at this site would then allow translation to begin. 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These cells also possess a homologue of bacterial IF2 called e/aIF5B. Several results indicate that the mode of action of e/aIF5B resembles some function of bacterial IF2. The e/aIF5B factor promotes the joining of ribosomal subunits. Moreover, there is genetic evidence that the factor participates in the binding of initiator tRNA to the small ribosomal subunit. However, up to now, an interaction between e/aIF5B and initiator tRNA was not evidenced. In this study, we use an assay based on protection of aminoacyl-tRNA against spontaneous deacylation to demonstrate that archaeal aIF5B indeed can interact with initiator tRNA. In complex formation, aIF5B shows specificity toward the methionyl moiety of the ligand. The complex between Saccharomyces cerevisiae eIF5B and methionylated initiator tRNA is less stable than that formed with aIF5B. In addition, this complex is almost indifferent to the side chain of the esterified amino acid. These results support the idea that, beyond the channeling of Met-tRNAi Met to the 40S subunit by e/aIF2, e/aIF5B comes to interact with initiator tRNA on the ribosome. Recognition of an aminoacylated tRNA species at this site would then allow translation to begin. 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subjects	Archaeal Proteins Archaeal Proteins - metabolism Binding Sites Biochemistry, Molecular Biology Life Sciences Peptide Initiation Factors Peptide Initiation Factors - metabolism Peptide Initiation Factors - physiology Prokaryotic Initiation Factor-2 Ribosomes Ribosomes - metabolism RNA, Transfer, Met RNA, Transfer, Met - metabolism Saccharomyces cerevisiae Proteins Saccharomyces cerevisiae Proteins - metabolism Saccharomyces cerevisiae Proteins - physiology Structural Homology, Protein
title	Initiator tRNA Binding by e/aIF5B, the Eukaryotic/Archaeal Homologue of Bacterial Initiation Factor IF2
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