Membrane protein biogenesis in Ffh- or FtsY-depleted Escherichia coli

The Escherichia coli version of the mammalian signal recognition particle (SRP) system is required for biogenesis of membrane proteins and contains two essential proteins: the SRP subunit Ffh and the SRP-receptor FtsY. Scattered in vivo studies have raised the possibility that expression of membrane...

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Veröffentlicht in:	PloS one 2010-02, Vol.5 (2), p.e9130-e9130
Hauptverfasser:	Yosef, Ido, Bochkareva, Elena S, Adler, Julia, Bibi, Eitan
Format:	Artikel
Sprache:	eng
Schlagworte:	Alkaline Phosphatase - genetics Alkaline Phosphatase - metabolism Analysis Assembly Bacteria Bacterial Proteins - genetics Bacterial Proteins - metabolism Biochemistry Biosynthesis Blotting, Western Cell Biology Depletion E coli Escherichia coli Escherichia coli - genetics Escherichia coli - metabolism Escherichia coli Proteins - genetics Escherichia coli Proteins - metabolism Gene expression In vivo methods and tests Localization Membrane proteins Membrane Proteins - genetics Membrane Proteins - metabolism Membrane Transport Proteins - genetics Membrane Transport Proteins - metabolism Membranes Microbiology mRNA stability Phenols Phosphatase Plasmids Polypeptides Protein Binding Protein Biosynthesis Protein folding Protein synthesis Protein Transport Proteins Receptors, Cytoplasmic and Nuclear - genetics Receptors, Cytoplasmic and Nuclear - metabolism Reverse Transcriptase Polymerase Chain Reaction Ribosomes - metabolism RNA Signal recognition particle Signal Recognition Particle - genetics Signal Recognition Particle - metabolism Signal Transduction Stability Translation
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creator	Yosef, Ido Bochkareva, Elena S Adler, Julia Bibi, Eitan
description	The Escherichia coli version of the mammalian signal recognition particle (SRP) system is required for biogenesis of membrane proteins and contains two essential proteins: the SRP subunit Ffh and the SRP-receptor FtsY. Scattered in vivo studies have raised the possibility that expression of membrane proteins is inhibited in cells depleted of FtsY, whereas Ffh-depletion only affects their assembly. These differential results are surprising in light of the proposed model that FtsY and Ffh play a role in the same pathway of ribosome targeting to the membrane. Therefore, we decided to evaluate these unexpected results systematically. We characterized the following aspects of membrane protein biogenesis under conditions of either FtsY- or Ffh-depletion: (i) Protein expression, stability and localization; (ii) mRNA levels; (iii) folding and activity. With FtsY, we show that it is specifically required for expression of membrane proteins. Since no changes in mRNA levels or membrane protein stability were detected in cells depleted of FtsY, we propose that its depletion may lead to specific inhibition of translation of membrane proteins. Surprisingly, although FtsY and Ffh function in the same pathway, depletion of Ffh did not affect membrane protein expression or localization. Our results suggest that indeed, while FtsY-depletion affects earlier steps in the pathway (possibly translation), Ffh-depletion disrupts membrane protein biogenesis later during the targeting pathway by preventing their functional assembly in the membrane.
doi_str_mv	10.1371/journal.pone.0009130
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Scattered in vivo studies have raised the possibility that expression of membrane proteins is inhibited in cells depleted of FtsY, whereas Ffh-depletion only affects their assembly. These differential results are surprising in light of the proposed model that FtsY and Ffh play a role in the same pathway of ribosome targeting to the membrane. Therefore, we decided to evaluate these unexpected results systematically. We characterized the following aspects of membrane protein biogenesis under conditions of either FtsY- or Ffh-depletion: (i) Protein expression, stability and localization; (ii) mRNA levels; (iii) folding and activity. With FtsY, we show that it is specifically required for expression of membrane proteins. Since no changes in mRNA levels or membrane protein stability were detected in cells depleted of FtsY, we propose that its depletion may lead to specific inhibition of translation of membrane proteins. Surprisingly, although FtsY and Ffh function in the same pathway, depletion of Ffh did not affect membrane protein expression or localization. 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subjects	Alkaline Phosphatase - genetics Alkaline Phosphatase - metabolism Analysis Assembly Bacteria Bacterial Proteins - genetics Bacterial Proteins - metabolism Biochemistry Biosynthesis Blotting, Western Cell Biology Depletion E coli Escherichia coli Escherichia coli - genetics Escherichia coli - metabolism Escherichia coli Proteins - genetics Escherichia coli Proteins - metabolism Gene expression In vivo methods and tests Localization Membrane proteins Membrane Proteins - genetics Membrane Proteins - metabolism Membrane Transport Proteins - genetics Membrane Transport Proteins - metabolism Membranes Microbiology mRNA stability Phenols Phosphatase Plasmids Polypeptides Protein Binding Protein Biosynthesis Protein folding Protein synthesis Protein Transport Proteins Receptors, Cytoplasmic and Nuclear - genetics Receptors, Cytoplasmic and Nuclear - metabolism Reverse Transcriptase Polymerase Chain Reaction Ribosomes - metabolism RNA Signal recognition particle Signal Recognition Particle - genetics Signal Recognition Particle - metabolism Signal Transduction Stability Translation
title	Membrane protein biogenesis in Ffh- or FtsY-depleted Escherichia coli
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