The C terminus of SecA is involved in both lipid binding and SecB binding

Eefjan Breukink; Nico Nouwen; Anne Van Raalte; Shoji Mizushima; Jan Tommassen; Ben De Kruijff

doi:10.1074/jbc.270.14.7902

The C terminus of SecA is involved in both lipid binding and SecB binding

Eefjan Breukink, Nico Nouwen, Anne Van Raalte, Shoji Mizushima, Jan Tommassen, Ben De Kruijff

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

Abstract

Using C-terminal deletion mutations in secA, we localized the previously proposed (Breukink, E., Keller, R. C. A., and de Kruijff, B. (1993), FEBS Lett. 331, 19-24) second lipid binding site on SecA. Since removal of these residues completely abolished the property of SecA to cause aggregation of negatively charged phosphatidylglycerol vesicles, we conclude that the C- terminal 70 amino acid residues of SecA are involved in lipid-binding. The C- terminal 70 amino acid residues of SecA are important for efficient in vitro translocation of the SecB-dependent precursor of PhoE across inverted inner membrane vesicles. Moreover, in vivo studies showed that this region is essential for growth. SecB and a SecB-precursor complex were shown to inhibit the SecA-mediated lipid vesicle aggregation, suggesting that the overall acidic SecB protein binds at or near the second lipid binding site on SecA. This together with the observation that the SecA mutant protein lacking the C-terminal 70 residues had a strongly reduced ability to mediate binding of SecB-precursor complexes to inverted inner membrane vesicles demonstrates that the C terminus of SecA is also involved in SecB binding.

Original language	English
Pages (from-to)	7902-7907
Number of pages	6
Journal	Journal of Biological Chemistry
Volume	270
Issue number	14
DOIs	https://doi.org/10.1074/jbc.270.14.7902
Publication status	Published - 7 Apr 1995

Keywords

adenosine triphosphatase
chaperone
dioleoylphosphatidylglycerol
lipid
lipid binding protein
mutant protein
protein precursor
protein SecA
protein SecB
unclassified drug
article
binding site
carboxy terminal sequence
controlled study
deletion mutant
enzyme activity
genetic complementation
lipid vesicle
nonhuman
priority journal
protein binding
protein transport

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10.1074/jbc.270.14.7902

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@article{1d7177de79f042ffbf82fc28cf52a763,

title = "The C terminus of SecA is involved in both lipid binding and SecB binding",

abstract = "Using C-terminal deletion mutations in secA, we localized the previously proposed (Breukink, E., Keller, R. C. A., and de Kruijff, B. (1993), FEBS Lett. 331, 19-24) second lipid binding site on SecA. Since removal of these residues completely abolished the property of SecA to cause aggregation of negatively charged phosphatidylglycerol vesicles, we conclude that the C- terminal 70 amino acid residues of SecA are involved in lipid-binding. The C- terminal 70 amino acid residues of SecA are important for efficient in vitro translocation of the SecB-dependent precursor of PhoE across inverted inner membrane vesicles. Moreover, in vivo studies showed that this region is essential for growth. SecB and a SecB-precursor complex were shown to inhibit the SecA-mediated lipid vesicle aggregation, suggesting that the overall acidic SecB protein binds at or near the second lipid binding site on SecA. This together with the observation that the SecA mutant protein lacking the C-terminal 70 residues had a strongly reduced ability to mediate binding of SecB-precursor complexes to inverted inner membrane vesicles demonstrates that the C terminus of SecA is also involved in SecB binding.",

keywords = "adenosine triphosphatase, chaperone, dioleoylphosphatidylglycerol, lipid, lipid binding protein, mutant protein, protein precursor, protein SecA, protein SecB, unclassified drug, article, binding site, carboxy terminal sequence, controlled study, deletion mutant, enzyme activity, genetic complementation, lipid vesicle, nonhuman, priority journal, protein binding, protein transport",

author = "Eefjan Breukink and Nico Nouwen and {Van Raalte}, Anne and Shoji Mizushima and Jan Tommassen and {De Kruijff}, Ben",

year = "1995",

month = apr,

day = "7",

doi = "10.1074/jbc.270.14.7902",

language = "English",

volume = "270",

pages = "7902--7907",

journal = "Journal of Biological Chemistry",

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publisher = "American Society for Biochemistry and Molecular Biology Inc.",

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T1 - The C terminus of SecA is involved in both lipid binding and SecB binding

AU - Breukink, Eefjan

AU - Nouwen, Nico

AU - Van Raalte, Anne

AU - Mizushima, Shoji

AU - Tommassen, Jan

AU - De Kruijff, Ben

PY - 1995/4/7

Y1 - 1995/4/7

N2 - Using C-terminal deletion mutations in secA, we localized the previously proposed (Breukink, E., Keller, R. C. A., and de Kruijff, B. (1993), FEBS Lett. 331, 19-24) second lipid binding site on SecA. Since removal of these residues completely abolished the property of SecA to cause aggregation of negatively charged phosphatidylglycerol vesicles, we conclude that the C- terminal 70 amino acid residues of SecA are involved in lipid-binding. The C- terminal 70 amino acid residues of SecA are important for efficient in vitro translocation of the SecB-dependent precursor of PhoE across inverted inner membrane vesicles. Moreover, in vivo studies showed that this region is essential for growth. SecB and a SecB-precursor complex were shown to inhibit the SecA-mediated lipid vesicle aggregation, suggesting that the overall acidic SecB protein binds at or near the second lipid binding site on SecA. This together with the observation that the SecA mutant protein lacking the C-terminal 70 residues had a strongly reduced ability to mediate binding of SecB-precursor complexes to inverted inner membrane vesicles demonstrates that the C terminus of SecA is also involved in SecB binding.

AB - Using C-terminal deletion mutations in secA, we localized the previously proposed (Breukink, E., Keller, R. C. A., and de Kruijff, B. (1993), FEBS Lett. 331, 19-24) second lipid binding site on SecA. Since removal of these residues completely abolished the property of SecA to cause aggregation of negatively charged phosphatidylglycerol vesicles, we conclude that the C- terminal 70 amino acid residues of SecA are involved in lipid-binding. The C- terminal 70 amino acid residues of SecA are important for efficient in vitro translocation of the SecB-dependent precursor of PhoE across inverted inner membrane vesicles. Moreover, in vivo studies showed that this region is essential for growth. SecB and a SecB-precursor complex were shown to inhibit the SecA-mediated lipid vesicle aggregation, suggesting that the overall acidic SecB protein binds at or near the second lipid binding site on SecA. This together with the observation that the SecA mutant protein lacking the C-terminal 70 residues had a strongly reduced ability to mediate binding of SecB-precursor complexes to inverted inner membrane vesicles demonstrates that the C terminus of SecA is also involved in SecB binding.

KW - adenosine triphosphatase

KW - chaperone

KW - dioleoylphosphatidylglycerol

KW - lipid

KW - lipid binding protein

KW - mutant protein

KW - protein precursor

KW - protein SecA

KW - protein SecB

KW - unclassified drug

KW - article

KW - binding site

KW - carboxy terminal sequence

KW - controlled study

KW - deletion mutant

KW - enzyme activity

KW - genetic complementation

KW - lipid vesicle

KW - nonhuman

KW - priority journal

KW - protein binding

KW - protein transport

U2 - 10.1074/jbc.270.14.7902

DO - 10.1074/jbc.270.14.7902

M3 - Article

SN - 0021-9258

VL - 270

SP - 7902

EP - 7907

JO - Journal of Biological Chemistry

JF - Journal of Biological Chemistry

IS - 14

ER -

The C terminus of SecA is involved in both lipid binding and SecB binding

Abstract

Keywords

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