Three-state equilibrium of escherichia coli trigger factor

Holger Patzelt; Günter Kramer; Thomas Rauch; Hans Joachim Schönfeld; Bernd Bukau; Elke Deuerling

doi:10.1515/BC.2002.182

Three-state equilibrium of escherichia coli trigger factor

Holger Patzelt, Günter Kramer, Thomas Rauch, Hans Joachim Schönfeld, Bernd Bukau, Elke Deuerling

Heidelberg University

Research output: Contribution to journal › Article › peer-review

93 Scopus citations

Abstract

Trigger Factor (TF) is the first chaperone that interacts with nascent chains of cytosolic proteins in Escherichia coli. Although its chaperone activity requires association with ribosomes, TF is present in vivo in a 2-3 fold molar excess over ribosomes and a fraction of it is not ribosome-associated after cell lysis. Here we show that TF follows a three-state equilibrium. Size exclusion chromatography, crosslinking and analytical ultracentrifugation revealed that uncomplexed TF dimerizes with an apparent K_d of 18 μM. Dimerization is mediated by the N-terminal ribosome binding domain and the C-terminal domain of TF, whereas the central peptidyl prolyl isomerase (PPlase) and substrate binding domain does not contribute to dimerization. Crosslinking experiments showed that TF is monomeric in its ribosome-associated state. Quantitative analysis of TF binding to ribosomes revealed a dissociation constant for the TF-ribosome complex of approximately 1.2 μM. From these data we estimate that in vivo most of the ribosomes are in complex with monomeric TF. Uncomplexed TF, however, is in a monomer-dimer equilibrium with approximately two thirds of TF existing in a dimeric state.

Original language	English
Pages (from-to)	1611-1619
Number of pages	9
Journal	Biological Chemistry
Volume	383
Issue number	10
DOIs	https://doi.org/10.1515/BC.2002.182
State	Published - 1 Oct 2002
Externally published	Yes

Keywords

Chaperone
FKBP
PPlase
Protein folding
Ribosome

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title = "Three-state equilibrium of escherichia coli trigger factor",

abstract = "Trigger Factor (TF) is the first chaperone that interacts with nascent chains of cytosolic proteins in Escherichia coli. Although its chaperone activity requires association with ribosomes, TF is present in vivo in a 2-3 fold molar excess over ribosomes and a fraction of it is not ribosome-associated after cell lysis. Here we show that TF follows a three-state equilibrium. Size exclusion chromatography, crosslinking and analytical ultracentrifugation revealed that uncomplexed TF dimerizes with an apparent Kd of 18 μM. Dimerization is mediated by the N-terminal ribosome binding domain and the C-terminal domain of TF, whereas the central peptidyl prolyl isomerase (PPlase) and substrate binding domain does not contribute to dimerization. Crosslinking experiments showed that TF is monomeric in its ribosome-associated state. Quantitative analysis of TF binding to ribosomes revealed a dissociation constant for the TF-ribosome complex of approximately 1.2 μM. From these data we estimate that in vivo most of the ribosomes are in complex with monomeric TF. Uncomplexed TF, however, is in a monomer-dimer equilibrium with approximately two thirds of TF existing in a dimeric state.",

keywords = "Chaperone, FKBP, PPlase, Protein folding, Ribosome",

author = "Holger Patzelt and G{\"u}nter Kramer and Thomas Rauch and Sch{\"o}nfeld, {Hans Joachim} and Bernd Bukau and Elke Deuerling",

note = "Funding Information: We thank members of the Bukau laboratory for fruitful discussions and Agnes Schulze-Specking and Beate Zachmann-Brand for technical assistance, Francis M{\"u}ller and Eric Andre Kusznir for performing analytical ultracentrifugation runs and Borries Demeler for providing UltraScan software and helpful advice. This work was supported by grants of the DFG (SFB388, SFB352 and the Leibniz program) to B.B. and E.D., the Human Frontier Science Foundation to E.D. and a fellowship of the Boehringer Ingelheim Fonds to T.R.",

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AU - Patzelt, Holger

AU - Kramer, Günter

AU - Rauch, Thomas

AU - Schönfeld, Hans Joachim

AU - Bukau, Bernd

AU - Deuerling, Elke

N1 - Funding Information: We thank members of the Bukau laboratory for fruitful discussions and Agnes Schulze-Specking and Beate Zachmann-Brand for technical assistance, Francis Müller and Eric Andre Kusznir for performing analytical ultracentrifugation runs and Borries Demeler for providing UltraScan software and helpful advice. This work was supported by grants of the DFG (SFB388, SFB352 and the Leibniz program) to B.B. and E.D., the Human Frontier Science Foundation to E.D. and a fellowship of the Boehringer Ingelheim Fonds to T.R.

PY - 2002/10/1

Y1 - 2002/10/1

N2 - Trigger Factor (TF) is the first chaperone that interacts with nascent chains of cytosolic proteins in Escherichia coli. Although its chaperone activity requires association with ribosomes, TF is present in vivo in a 2-3 fold molar excess over ribosomes and a fraction of it is not ribosome-associated after cell lysis. Here we show that TF follows a three-state equilibrium. Size exclusion chromatography, crosslinking and analytical ultracentrifugation revealed that uncomplexed TF dimerizes with an apparent Kd of 18 μM. Dimerization is mediated by the N-terminal ribosome binding domain and the C-terminal domain of TF, whereas the central peptidyl prolyl isomerase (PPlase) and substrate binding domain does not contribute to dimerization. Crosslinking experiments showed that TF is monomeric in its ribosome-associated state. Quantitative analysis of TF binding to ribosomes revealed a dissociation constant for the TF-ribosome complex of approximately 1.2 μM. From these data we estimate that in vivo most of the ribosomes are in complex with monomeric TF. Uncomplexed TF, however, is in a monomer-dimer equilibrium with approximately two thirds of TF existing in a dimeric state.

AB - Trigger Factor (TF) is the first chaperone that interacts with nascent chains of cytosolic proteins in Escherichia coli. Although its chaperone activity requires association with ribosomes, TF is present in vivo in a 2-3 fold molar excess over ribosomes and a fraction of it is not ribosome-associated after cell lysis. Here we show that TF follows a three-state equilibrium. Size exclusion chromatography, crosslinking and analytical ultracentrifugation revealed that uncomplexed TF dimerizes with an apparent Kd of 18 μM. Dimerization is mediated by the N-terminal ribosome binding domain and the C-terminal domain of TF, whereas the central peptidyl prolyl isomerase (PPlase) and substrate binding domain does not contribute to dimerization. Crosslinking experiments showed that TF is monomeric in its ribosome-associated state. Quantitative analysis of TF binding to ribosomes revealed a dissociation constant for the TF-ribosome complex of approximately 1.2 μM. From these data we estimate that in vivo most of the ribosomes are in complex with monomeric TF. Uncomplexed TF, however, is in a monomer-dimer equilibrium with approximately two thirds of TF existing in a dimeric state.

KW - Chaperone

KW - FKBP

KW - PPlase

KW - Protein folding

KW - Ribosome

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JO - Biological Chemistry

JF - Biological Chemistry

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ER -

Three-state equilibrium of escherichia coli trigger factor

Abstract

Keywords

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