Arnold J.M. Driessen scite author profile

In Escherichia coli, both secretory and inner membrane proteins initially are targeted to the core SecYEG inner membrane translocase. Previous work has also identified the peripherally associated SecA protein as well as the SecD, SecF and YajC inner membrane proteins as components of the translocase. Here, we use a cross‐linking approach to show that hydrophilic portions of a co‐translationally targeted inner membrane protein (FtsQ) are close to SecA and SecY, suggesting that insertion takes place at the SecA/Y interface. The hydrophobic FtsQ signal anchor sequence contacts both lipids and a novel 60 kDa translocase‐associated component that we identify as YidC. YidC is homologous to Saccharomyces cerevisiae Oxa1p, which has been shown to function in a novel export pathway at the mitochondrial inner membrane. We propose that YidC is involved in the insertion of hydrophobic sequences into the lipid bilayer after initial recognition by the SecAYEG translocase.

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SecYEG assembles into a tetramer to form the active protein translocation channel

Manting

Does

Rémigy

et al. 2000

EMBO J

197

228

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SecA, the peripheral subunit of the Escherichia coli precursor protein translocase, is functional as a dimer

1993

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SecA, the peripheral ATPase domain of the Escherichia coli precursor protein translocase, was denatured in 6 M guanidine hydrochloride. Circular dichroism and intrinsic tryptophan fluorescence spectra revealed that the protein is transformed into a random-coil configuration. Upon dilution of the chaotropic agent, SecA refolds into its native, functional conformation as a homodimer. As structural criteria, the native dimeric state was assayed by size-exclusion chromatography, chemical cross-linking, tryptophan fluorescence, and circular dichroism. Functional SecA heterodimers were formed of which the individual subunits were tagged with fluorescent dyes to allow measurements of the association state of the monomers by resonance energy transfer using steady-state and time-resolved fluorescence spectroscopy. SecA retained its dimeric structure during translocation, while energy transfer was abolished only by denaturation. The "half-of-the-sites activity" was investigated by constructing heterodimers formed from native and 8-azido-ATP-inactivated SecA. Heterodimers have lost the ability to support translocation of the precursor protein proOmpA in an in vitro translocation system. It is concluded that the dimeric structure is maintained during translocation and required for functionality.

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Pediocin PA-1, a bacteriocin from Pediococcus acidilactici PAC1.0, forms hydrophilic pores in the cytoplasmic membrane of target cells

Chikindas

García-Garcerá

Driessen

et al. 1993

Appl Environ Microbiol

250

144

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Pediocin PA-1 is a bacteriocin which is produced by Pediococcus acidilactici PAC1.0. We demonstrate that pediocin PA-1 kills sensitive Pediococcus cells and acts on the cytoplasmic membrane. In contrast to its lack of impact on immune cells, pediocin PA-1 dissipates the transmembrane electrical potential and inhibits amino acid transport in sensitive cells. Pediocin interferes with the uptake of amino acids by cytoplasmic membrane vesicles derived from sensitive cells, while it is less effective with membranes derived from immune cells. In liposomes fused with membrane vesicles derived from both sensitive and immune cells, pediocin PA-1 elicits an efflux of small ions and, at higher concentrations, an efflux of molecules having molecular weights of up to 9,400. Our data suggest that pediocin PA-1 functions in a voltage-independent manner but requires a specific protein in the target membrane.

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Bacteriocins: mechanism of membrane insertion and pore formation

1999

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