Identification of determinants in the protein partners aCBF5 and aNOP10 necessary for the tRNA:Ψ55-synthase and RNA-guided RNA:Ψ-synthase activities

Protein aNOP10 has an essential scaffolding function in H/ACA sRNPs and its interaction with the pseudouridine(Ψ)-synthase aCBF5 is required for the RNA-guided RNA:Ψ-synthase activity. Recently, aCBF5 was shown to catalyze the isomerization of U55 in tRNAs without the help of a guide sRNA. Here we s...

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Autores principales: Muller, Sébastien, Fourmann, Jean-Baptiste, Loegler, Christine, Charpentier, Bruno, Branlant, Christiane
Formato: Texto
Lenguaje:English
Publicado: Oxford University Press 2007
Materias:
RNA
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2018633/
https://www.ncbi.nlm.nih.gov/pubmed/17704128
http://dx.doi.org/10.1093/nar/gkm606
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author Muller, Sébastien
Fourmann, Jean-Baptiste
Loegler, Christine
Charpentier, Bruno
Branlant, Christiane
author_facet Muller, Sébastien
Fourmann, Jean-Baptiste
Loegler, Christine
Charpentier, Bruno
Branlant, Christiane
author_sort Muller, Sébastien
collection PubMed
description Protein aNOP10 has an essential scaffolding function in H/ACA sRNPs and its interaction with the pseudouridine(Ψ)-synthase aCBF5 is required for the RNA-guided RNA:Ψ-synthase activity. Recently, aCBF5 was shown to catalyze the isomerization of U55 in tRNAs without the help of a guide sRNA. Here we show that the stable anchoring of aCBF5 to tRNAs relies on its PUA domain and the tRNA CCA sequence. Nonetheless, interaction of aNOP10 with aCBF5 can counterbalance the absence of the PUA domain or the CCA sequence and more generally helps the aCBF5 tRNA:Ψ55-synthase activity. Whereas substitution of the aNOP10 residue Y14 by an alanine disturbs this activity, it only impairs mildly the RNA-guided activity. The opposite effect was observed for the aNOP10 variant H31A. Substitution K53A or R202A in aCBF5 impairs both the tRNA:Ψ55-synthase and the RNA-guided RNA:Ψ-synthase activities. Remarkably, the presence of aNOP10 compensates for the negative effect of these substitutions on the tRNA: Ψ55-synthase activity. Substitution of the aCBF5 conserved residue H77 that is expected to extrude the targeted U residue in tRNA strongly affects the efficiency of U55 modification but has no major effect on the RNA-guided activity. This negative effect can also be compensated by the presence of aNOP10.
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spelling pubmed-20186332007-10-23 Identification of determinants in the protein partners aCBF5 and aNOP10 necessary for the tRNA:Ψ55-synthase and RNA-guided RNA:Ψ-synthase activities Muller, Sébastien Fourmann, Jean-Baptiste Loegler, Christine Charpentier, Bruno Branlant, Christiane Nucleic Acids Res RNA Protein aNOP10 has an essential scaffolding function in H/ACA sRNPs and its interaction with the pseudouridine(Ψ)-synthase aCBF5 is required for the RNA-guided RNA:Ψ-synthase activity. Recently, aCBF5 was shown to catalyze the isomerization of U55 in tRNAs without the help of a guide sRNA. Here we show that the stable anchoring of aCBF5 to tRNAs relies on its PUA domain and the tRNA CCA sequence. Nonetheless, interaction of aNOP10 with aCBF5 can counterbalance the absence of the PUA domain or the CCA sequence and more generally helps the aCBF5 tRNA:Ψ55-synthase activity. Whereas substitution of the aNOP10 residue Y14 by an alanine disturbs this activity, it only impairs mildly the RNA-guided activity. The opposite effect was observed for the aNOP10 variant H31A. Substitution K53A or R202A in aCBF5 impairs both the tRNA:Ψ55-synthase and the RNA-guided RNA:Ψ-synthase activities. Remarkably, the presence of aNOP10 compensates for the negative effect of these substitutions on the tRNA: Ψ55-synthase activity. Substitution of the aCBF5 conserved residue H77 that is expected to extrude the targeted U residue in tRNA strongly affects the efficiency of U55 modification but has no major effect on the RNA-guided activity. This negative effect can also be compensated by the presence of aNOP10. Oxford University Press 2007-08 2007-08-17 /pmc/articles/PMC2018633/ /pubmed/17704128 http://dx.doi.org/10.1093/nar/gkm606 Text en © 2007 The Author(s) http://creativecommons.org/licenses/by-nc/2.0/uk/ This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/2.0/uk/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle RNA
Muller, Sébastien
Fourmann, Jean-Baptiste
Loegler, Christine
Charpentier, Bruno
Branlant, Christiane
Identification of determinants in the protein partners aCBF5 and aNOP10 necessary for the tRNA:Ψ55-synthase and RNA-guided RNA:Ψ-synthase activities
title Identification of determinants in the protein partners aCBF5 and aNOP10 necessary for the tRNA:Ψ55-synthase and RNA-guided RNA:Ψ-synthase activities
title_full Identification of determinants in the protein partners aCBF5 and aNOP10 necessary for the tRNA:Ψ55-synthase and RNA-guided RNA:Ψ-synthase activities
title_fullStr Identification of determinants in the protein partners aCBF5 and aNOP10 necessary for the tRNA:Ψ55-synthase and RNA-guided RNA:Ψ-synthase activities
title_full_unstemmed Identification of determinants in the protein partners aCBF5 and aNOP10 necessary for the tRNA:Ψ55-synthase and RNA-guided RNA:Ψ-synthase activities
title_short Identification of determinants in the protein partners aCBF5 and aNOP10 necessary for the tRNA:Ψ55-synthase and RNA-guided RNA:Ψ-synthase activities
title_sort identification of determinants in the protein partners acbf5 and anop10 necessary for the trna:ψ55-synthase and rna-guided rna:ψ-synthase activities
topic RNA
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2018633/
https://www.ncbi.nlm.nih.gov/pubmed/17704128
http://dx.doi.org/10.1093/nar/gkm606
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