Trigger Factor and DnaK possess overlapping substrate pools and binding specificities

Summary Ribosome‐associated Trigger Factor (TF) and the DnaK chaperone system assist the folding of newly synthesized proteins in Escherichia coli. Here, we show that DnaK and TF share a common substrate pool in vivo. In TF‐deficient cells, Δtig, depleted for DnaK and DnaJ the amount of aggregated p...

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Veröffentlicht in:	Molecular microbiology 2003-03, Vol.47 (5), p.1317-1328
Hauptverfasser:	Deuerling, Elke, Patzelt, Holger, Vorderwülbecke, Sonja, Rauch, Thomas, Kramer, Günter, Schaffitzel, Elke, Mogk, Axel, Schulze‐Specking, Agnes, Langen, Hanno, Bukau, Bernd
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Schlagworte:	Chaperonin 60 - metabolism Escherichia coli Proteins - chemistry Escherichia coli Proteins - metabolism Heat-Shock Proteins - metabolism HSP40 Heat-Shock Proteins HSP70 Heat-Shock Proteins - metabolism Peptidylprolyl Isomerase - metabolism Protein Binding Protein Folding Protein Interaction Mapping Substrate Specificity
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container_title	Molecular microbiology
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creator	Deuerling, Elke Patzelt, Holger Vorderwülbecke, Sonja Rauch, Thomas Kramer, Günter Schaffitzel, Elke Mogk, Axel Schulze‐Specking, Agnes Langen, Hanno Bukau, Bernd
description	Summary Ribosome‐associated Trigger Factor (TF) and the DnaK chaperone system assist the folding of newly synthesized proteins in Escherichia coli. Here, we show that DnaK and TF share a common substrate pool in vivo. In TF‐deficient cells, Δtig, depleted for DnaK and DnaJ the amount of aggregated proteins increases with increasing temperature, amounting to 10% of total soluble protein (approximately 340 protein species) at 37°C. A similar population of proteins aggregated in DnaK depleted tig+ cells, albeit to a much lower extent. Ninety‐four aggregated proteins isolated from DnaK‐ and DnaJ‐depleted Δtig cells were identified by mass spectrometry and found to include essential cytosolic proteins. Four potential in vivo substrates were screened for chaperone binding sites using peptide libraries. Although TF and DnaK recognize different binding motifs, 77% of TF binding peptides also associated with DnaK. In the case of the nascent polypeptides TF and DnaK competed for binding, however, with competitive advantage for TF. In vivo, the loss of TF is compensated by the induction of the heat shock response and thus enhanced levels of DnaK. In summary, our results demonstrate that the co‐operation of the two mechanistically distinct chaperones in protein folding is based on their overlap in substrate specificities.
doi_str_mv	10.1046/j.1365-2958.2003.03370.x
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Here, we show that DnaK and TF share a common substrate pool in vivo. In TF‐deficient cells, Δtig, depleted for DnaK and DnaJ the amount of aggregated proteins increases with increasing temperature, amounting to 10% of total soluble protein (approximately 340 protein species) at 37°C. A similar population of proteins aggregated in DnaK depleted tig+ cells, albeit to a much lower extent. Ninety‐four aggregated proteins isolated from DnaK‐ and DnaJ‐depleted Δtig cells were identified by mass spectrometry and found to include essential cytosolic proteins. Four potential in vivo substrates were screened for chaperone binding sites using peptide libraries. Although TF and DnaK recognize different binding motifs, 77% of TF binding peptides also associated with DnaK. In the case of the nascent polypeptides TF and DnaK competed for binding, however, with competitive advantage for TF. In vivo, the loss of TF is compensated by the induction of the heat shock response and thus enhanced levels of DnaK. 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Here, we show that DnaK and TF share a common substrate pool in vivo. In TF‐deficient cells, Δtig, depleted for DnaK and DnaJ the amount of aggregated proteins increases with increasing temperature, amounting to 10% of total soluble protein (approximately 340 protein species) at 37°C. A similar population of proteins aggregated in DnaK depleted tig+ cells, albeit to a much lower extent. Ninety‐four aggregated proteins isolated from DnaK‐ and DnaJ‐depleted Δtig cells were identified by mass spectrometry and found to include essential cytosolic proteins. Four potential in vivo substrates were screened for chaperone binding sites using peptide libraries. Although TF and DnaK recognize different binding motifs, 77% of TF binding peptides also associated with DnaK. In the case of the nascent polypeptides TF and DnaK competed for binding, however, with competitive advantage for TF. 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subjects	Chaperonin 60 - metabolism Escherichia coli Proteins - chemistry Escherichia coli Proteins - metabolism Heat-Shock Proteins - metabolism HSP40 Heat-Shock Proteins HSP70 Heat-Shock Proteins - metabolism Peptidylprolyl Isomerase - metabolism Protein Binding Protein Folding Protein Interaction Mapping Substrate Specificity
title	Trigger Factor and DnaK possess overlapping substrate pools and binding specificities
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