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Chimeric tRNAs as tools to induce proteome damage and identify components of stress responses

Misfolded proteins are caused by genomic mutations, aberrant splicing events, translation errors or environmental factors. The accumulation of misfolded proteins is a phenomenon connected to several human disorders, and is managed by stress responses specific to the cellular compartments being affec...

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Published in:	Nucleic acids research 2010-03, Vol.38 (5), p.e30-e30
Main Authors:	Geslain, Renaud, Cubells, Laia, Bori-Sanz, Teresa, Álvarez-Medina, Roberto, Rossell, David, Martí, Elisa, de Pouplana, Lluís Ribas
Format:	Article
Language:	English
Subjects:	Animals Cell Growth Processes Cell Line Cell Survival Chick Embryo Data Interpretation, Statistical Humans Methods Online MicroRNAs - classification MicroRNAs - metabolism Mutagenesis, Site-Directed Mutation Protein Biosynthesis Proteome - genetics RNA, Transfer, Ser - chemistry RNA, Transfer, Ser - metabolism Unfolded Protein Response - genetics
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cited_by	cdi_FETCH-LOGICAL-c465t-18e48972561dec7c3d96612fca5ca3cecb8850ec7dd151e6d92136e742fb9b8b3
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creator	Geslain, Renaud Cubells, Laia Bori-Sanz, Teresa Álvarez-Medina, Roberto Rossell, David Martí, Elisa de Pouplana, Lluís Ribas
description	Misfolded proteins are caused by genomic mutations, aberrant splicing events, translation errors or environmental factors. The accumulation of misfolded proteins is a phenomenon connected to several human disorders, and is managed by stress responses specific to the cellular compartments being affected. In wild-type cells these mechanisms of stress response can be experimentally induced by expressing recombinant misfolded proteins or by incubating cells with large concentrations of amino acid analogues. Here, we report a novel approach for the induction of stress responses to protein aggregation. Our method is based on engineered transfer RNAs that can be expressed in cells or tissues, where they actively integrate in the translation machinery causing general proteome substitutions. This strategy allows for the introduction of mutations of increasing severity randomly in the proteome, without exposing cells to unnatural compounds. Here, we show that this approach can be used for the differential activation of the stress response in the Endoplasmic Reticulum (ER). As an example of the applications of this method, we have applied it to the identification of human microRNAs activated or repressed during unfolded protein stress.
doi_str_mv	10.1093/nar/gkp1083
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subjects	Animals Cell Growth Processes Cell Line Cell Survival Chick Embryo Data Interpretation, Statistical Humans Methods Online MicroRNAs - classification MicroRNAs - metabolism Mutagenesis, Site-Directed Mutation Protein Biosynthesis Proteome - genetics RNA, Transfer, Ser - chemistry RNA, Transfer, Ser - metabolism Unfolded Protein Response - genetics
title	Chimeric tRNAs as tools to induce proteome damage and identify components of stress responses
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