Correlation between requirement for SecA during export and folding properties of precursor polypeptides

H de Cock; LL Randall

Correlation between requirement for SecA during export and folding properties of precursor polypeptides

H de Cock^*, LL Randall

^*Corresponding author for this work

Sub Molecular Microbiology

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

Abstract

The structural complexity of a ligand in association with the molecular chaperones SecB and SecA was investigated using three species of precursor maltose-binding protein, which differ in their stability as a result of an amino acid substitution in each that affects the rate of folding of the polypeptide. In the presence of high concentrations of both SecB and SecA, the precursors were translocated in vitro with indistinguishable kinetics. However, when SecA was limiting, the translocation was more rapid for precursor species, which had lower stability in the native state relative to the stability of the wild-type precursor. We propose that, when in complex with SecB, precursors can form an element of tertiary structure and that these tertiary contacts are blocked when SecA is bound.

Original language	English
Pages (from-to)	469-476
Number of pages	8
Journal	Molecular Microbiology
Volume	27
Issue number	2
Publication status	Published - Jan 1998

Keywords

MALTOSE-BINDING-PROTEIN
ESCHERICHIA-COLI
IN-VIVO
TERTIARY STRUCTURE
SELECTIVE BINDING
CHAPERONE SECB
PHOE PROTEIN
MEMBRANE
TRANSLOCATION
INVIVO

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title = "Correlation between requirement for SecA during export and folding properties of precursor polypeptides",

abstract = "The structural complexity of a ligand in association with the molecular chaperones SecB and SecA was investigated using three species of precursor maltose-binding protein, which differ in their stability as a result of an amino acid substitution in each that affects the rate of folding of the polypeptide. In the presence of high concentrations of both SecB and SecA, the precursors were translocated in vitro with indistinguishable kinetics. However, when SecA was limiting, the translocation was more rapid for precursor species, which had lower stability in the native state relative to the stability of the wild-type precursor. We propose that, when in complex with SecB, precursors can form an element of tertiary structure and that these tertiary contacts are blocked when SecA is bound.",

keywords = "MALTOSE-BINDING-PROTEIN, ESCHERICHIA-COLI, IN-VIVO, TERTIARY STRUCTURE, SELECTIVE BINDING, CHAPERONE SECB, PHOE PROTEIN, MEMBRANE, TRANSLOCATION, INVIVO",

author = "{de Cock}, H and LL Randall",

year = "1998",

month = jan,

language = "English",

volume = "27",

pages = "469--476",

journal = "Molecular Microbiology",

issn = "0950-382X",

publisher = "John Wiley and Sons Inc.",

number = "2",

}

TY - JOUR

T1 - Correlation between requirement for SecA during export and folding properties of precursor polypeptides

AU - de Cock, H

AU - Randall, LL

PY - 1998/1

Y1 - 1998/1

N2 - The structural complexity of a ligand in association with the molecular chaperones SecB and SecA was investigated using three species of precursor maltose-binding protein, which differ in their stability as a result of an amino acid substitution in each that affects the rate of folding of the polypeptide. In the presence of high concentrations of both SecB and SecA, the precursors were translocated in vitro with indistinguishable kinetics. However, when SecA was limiting, the translocation was more rapid for precursor species, which had lower stability in the native state relative to the stability of the wild-type precursor. We propose that, when in complex with SecB, precursors can form an element of tertiary structure and that these tertiary contacts are blocked when SecA is bound.

AB - The structural complexity of a ligand in association with the molecular chaperones SecB and SecA was investigated using three species of precursor maltose-binding protein, which differ in their stability as a result of an amino acid substitution in each that affects the rate of folding of the polypeptide. In the presence of high concentrations of both SecB and SecA, the precursors were translocated in vitro with indistinguishable kinetics. However, when SecA was limiting, the translocation was more rapid for precursor species, which had lower stability in the native state relative to the stability of the wild-type precursor. We propose that, when in complex with SecB, precursors can form an element of tertiary structure and that these tertiary contacts are blocked when SecA is bound.

KW - MALTOSE-BINDING-PROTEIN

KW - ESCHERICHIA-COLI

KW - IN-VIVO

KW - TERTIARY STRUCTURE

KW - SELECTIVE BINDING

KW - CHAPERONE SECB

KW - PHOE PROTEIN

KW - MEMBRANE

KW - TRANSLOCATION

KW - INVIVO

M3 - Article

SN - 0950-382X

VL - 27

SP - 469

EP - 476

JO - Molecular Microbiology

JF - Molecular Microbiology

IS - 2

ER -

Correlation between requirement for SecA during export and folding properties of precursor polypeptides

Abstract

Keywords

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