Josef Brunner 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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New Photolabeling and Crosslinking Methods

Brunner

1993

Annu. Rev. Biochem.

445

287

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The Sec61p Complex Mediates the Integration of a Membrane Protein by Allowing Lipid Partitioning of the Transmembrane Domain

Heinrich

Mothes

Brunner³

et al. 2000

Cell

249

258

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We have investigated how the transmembrane (TM) domain of a membrane protein is cotranslationally integrated into the endoplasmic reticulum. We demonstrate that the Sec61p channel allows the TM domain to bypass the barrier posed by the polar head groups of the lipid bilayer and come into contact with the hydrophobic interior of the membrane. Together with the TRAM protein, Sec61p provides a site in the membrane, at the interface of channel and lipid, through which a TM domain can dynamically equilibrate between the lipid and aqueous phases, depending on the hydrophobicity of the TM domain and the length of the polypeptide segment tethering it to the ribosome. Our results suggest a unifying, lipid-partitioning model which can explain the general behavior of hydrophobic topogenic sequences.

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3-Trifluoromethyl-3-phenyldiazirine. A new carbene generating group for photolabeling reagents.

Brunner¹,

Senn²,

Richards³

1980

Journal of Biological Chemistry

354

232

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Sec‐dependent membrane protein insertion: sequential interaction of nascent FtsQ with SecY and YidC

Urbanus¹,

Scotti²,

et al. 2001

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Recent studies identified YidC as a novel membrane factor that may play a key role in membrane insertion of inner membrane proteins (IMPs), both in conjunction with the Sec-translocase and as a separate entity. Here, we show that the type II IMP FtsQ requires both the translocase and, to a lesser extent, YidC in vivo. Using photo-crosslinking we demonstrate that the transmembrane (TM) domain of the nascent IMP FtsQ inserts into the membrane close to SecY and lipids, and moves to a combined YidC/lipid environment upon elongation. These data are consistent with a crucial role for YidC in the lateral transfer of TM domains from the Sec translocase into the lipid bilayer.

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Josef Brunner

YidC, the Escherichia coli homologue of mitochondrial Oxa1p, is a component of the Sec translocase

New Photolabeling and Crosslinking Methods

The Sec61p Complex Mediates the Integration of a Membrane Protein by Allowing Lipid Partitioning of the Transmembrane Domain

3-Trifluoromethyl-3-phenyldiazirine. A new carbene generating group for photolabeling reagents.

Sec‐dependent membrane protein insertion: sequential interaction of nascent FtsQ with SecY and YidC

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