Assigning mitochondrial localization of dual localized proteins using a yeast Bi-Genomic Mitochondrial-Split-GFP

Assigning mitochondrial localization of dual localized proteins using a yeast Bi-Genomic Mitochondrial-Split-GFP

A single nuclear gene can be translated into a dual localized protein that distributes between the cytosol and mitochondria. Accumulating evidences show that mitoproteomes contain lots of these dual localized proteins termed echoforms. Unraveling the existence of mitochondrial echoforms using curren...

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Main Authors: Gaétan Bader, Ludovic Enkler, Yuhei Araiso, Marine Hemmerle, Krystyna Binko, Emilia Baranowska, Johan-Owen De Craene, Julie Ruer-Laventie, Jean Pieters, Déborah Tribouillard-Tanvier, Bruno Senger, Jean-Paul di Rago, Sylvie Friant, Roza Kucharczyk, Hubert Dominique Becker
Format: Article
Language:English
Published: eLife Sciences Publications Ltd 2020-07-01
Series:eLife
Subjects:
mitochondria
dual localized protein
Split-GFP
import
aminoacyl-tRNA synthetase
argonaute 2 protein
Online Access:https://elifesciences.org/articles/56649
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spelling doaj-445f392680da4554b57ee4bf06f5d4632021-05-05T21:18:14ZengeLife Sciences Publications LtdeLife2050-084X2020-07-01910.7554/eLife.56649Assigning mitochondrial localization of dual localized proteins using a yeast Bi-Genomic Mitochondrial-Split-GFPGaétan Bader0Ludovic Enkler1Yuhei Araiso2Marine Hemmerle3Krystyna Binko4Emilia Baranowska5Johan-Owen De Craene6Julie Ruer-Laventie7Jean Pieters8Déborah Tribouillard-Tanvier9Bruno Senger10Jean-Paul di Rago11Sylvie Friant12Roza Kucharczyk13https://orcid.org/0000-0002-8712-7535Hubert Dominique Becker14https://orcid.org/0000-0002-4102-7520Université de Strasbourg, CNRS UMR7156, Génétique Moléculaire, Génomique, Microbiologie, Strasbourg, FranceUniversité de Strasbourg, CNRS UMR7156, Génétique Moléculaire, Génomique, Microbiologie, Strasbourg, FranceUniversité de Strasbourg, CNRS UMR7156, Génétique Moléculaire, Génomique, Microbiologie, Strasbourg, FranceUniversité de Strasbourg, CNRS UMR7156, Génétique Moléculaire, Génomique, Microbiologie, Strasbourg, FranceInstitute of Biochemistry and Biophysics, Polish Academy of Sciences, Warsaw, PolandInstitute of Biochemistry and Biophysics, Polish Academy of Sciences, Warsaw, PolandUniversité de Strasbourg, CNRS UMR7156, Génétique Moléculaire, Génomique, Microbiologie, Strasbourg, FranceBiozentrum, University of Basel, Basel, SwitzerlandBiozentrum, University of Basel, Basel, SwitzerlandInstitut de Biochimie et Génétique Cellulaires, CNRS UMR5095, Université de Bordeaux, Bordeaux, FranceUniversité de Strasbourg, CNRS UMR7156, Génétique Moléculaire, Génomique, Microbiologie, Strasbourg, FranceInstitut de Biochimie et Génétique Cellulaires, CNRS UMR5095, Université de Bordeaux, Bordeaux, FranceUniversité de Strasbourg, CNRS UMR7156, Génétique Moléculaire, Génomique, Microbiologie, Strasbourg, FranceInstitute of Biochemistry and Biophysics, Polish Academy of Sciences, Warsaw, PolandUniversité de Strasbourg, CNRS UMR7156, Génétique Moléculaire, Génomique, Microbiologie, Strasbourg, FranceA single nuclear gene can be translated into a dual localized protein that distributes between the cytosol and mitochondria. Accumulating evidences show that mitoproteomes contain lots of these dual localized proteins termed echoforms. Unraveling the existence of mitochondrial echoforms using current GFP (Green Fluorescent Protein) fusion microscopy approaches is extremely difficult because the GFP signal of the cytosolic echoform will almost inevitably mask that of the mitochondrial echoform. We therefore engineered a yeast strain expressing a new type of Split-GFP that we termed Bi-Genomic Mitochondrial-Split-GFP (BiG Mito-Split-GFP). Because one moiety of the GFP is translated from the mitochondrial machinery while the other is fused to the nuclear-encoded protein of interest translated in the cytosol, the self-reassembly of this Bi-Genomic-encoded Split-GFP is confined to mitochondria. We could authenticate the mitochondrial importability of any protein or echoform from yeast, but also from other organisms such as the human Argonaute 2 mitochondrial echoform.https://elifesciences.org/articles/56649mitochondriadual localized proteinSplit-GFPimportaminoacyl-tRNA synthetaseargonaute 2 protein
collection DOAJ
language English
format Article
sources DOAJ
author Gaétan Bader
Ludovic Enkler
Yuhei Araiso
Marine Hemmerle
Krystyna Binko
Emilia Baranowska
Johan-Owen De Craene
Julie Ruer-Laventie
Jean Pieters
Déborah Tribouillard-Tanvier
Bruno Senger
Jean-Paul di Rago
Sylvie Friant
Roza Kucharczyk
Hubert Dominique Becker
spellingShingle Gaétan Bader
Ludovic Enkler
Yuhei Araiso
Marine Hemmerle
Krystyna Binko
Emilia Baranowska
Johan-Owen De Craene
Julie Ruer-Laventie
Jean Pieters
Déborah Tribouillard-Tanvier
Bruno Senger
Jean-Paul di Rago
Sylvie Friant
Roza Kucharczyk
Hubert Dominique Becker
Assigning mitochondrial localization of dual localized proteins using a yeast Bi-Genomic Mitochondrial-Split-GFP
eLife
mitochondria
dual localized protein
Split-GFP
import
aminoacyl-tRNA synthetase
argonaute 2 protein
author_facet Gaétan Bader
Ludovic Enkler
Yuhei Araiso
Marine Hemmerle
Krystyna Binko
Emilia Baranowska
Johan-Owen De Craene
Julie Ruer-Laventie
Jean Pieters
Déborah Tribouillard-Tanvier
Bruno Senger
Jean-Paul di Rago
Sylvie Friant
Roza Kucharczyk
Hubert Dominique Becker
author_sort Gaétan Bader
title Assigning mitochondrial localization of dual localized proteins using a yeast Bi-Genomic Mitochondrial-Split-GFP
title_short Assigning mitochondrial localization of dual localized proteins using a yeast Bi-Genomic Mitochondrial-Split-GFP
title_full Assigning mitochondrial localization of dual localized proteins using a yeast Bi-Genomic Mitochondrial-Split-GFP
title_fullStr Assigning mitochondrial localization of dual localized proteins using a yeast Bi-Genomic Mitochondrial-Split-GFP
title_full_unstemmed Assigning mitochondrial localization of dual localized proteins using a yeast Bi-Genomic Mitochondrial-Split-GFP
title_sort assigning mitochondrial localization of dual localized proteins using a yeast bi-genomic mitochondrial-split-gfp
publisher eLife Sciences Publications Ltd
series eLife
issn 2050-084X
publishDate 2020-07-01
description A single nuclear gene can be translated into a dual localized protein that distributes between the cytosol and mitochondria. Accumulating evidences show that mitoproteomes contain lots of these dual localized proteins termed echoforms. Unraveling the existence of mitochondrial echoforms using current GFP (Green Fluorescent Protein) fusion microscopy approaches is extremely difficult because the GFP signal of the cytosolic echoform will almost inevitably mask that of the mitochondrial echoform. We therefore engineered a yeast strain expressing a new type of Split-GFP that we termed Bi-Genomic Mitochondrial-Split-GFP (BiG Mito-Split-GFP). Because one moiety of the GFP is translated from the mitochondrial machinery while the other is fused to the nuclear-encoded protein of interest translated in the cytosol, the self-reassembly of this Bi-Genomic-encoded Split-GFP is confined to mitochondria. We could authenticate the mitochondrial importability of any protein or echoform from yeast, but also from other organisms such as the human Argonaute 2 mitochondrial echoform.
topic mitochondria
dual localized protein
Split-GFP
import
aminoacyl-tRNA synthetase
argonaute 2 protein
url https://elifesciences.org/articles/56649
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