Ben C. Berks scite author profile

We describe the identification of two Escherichia coli genes required for the export of cofactor-containing periplasmic proteins, synthesized with signal peptides containing a twin arginine motif. Both gene products are homologous to the maize HCF106 protein required for the translocation of a subset of lumenal proteins across the thylakoid membrane. Disruption of either gene affects the export of a range of such proteins, and a complete block is observed when both genes are inactivated. The Sec protein export pathway was unaffected, indicating the involvement of the gene products in a novel export system. The accumulation of active cofactor-containing proteins in the cytoplasm of the mutant strains suggests a role for the gene products in the translocation of folded proteins. One of the two HCF106 homologues is encoded by the first gene of a four cistron operon, tatABCD, and the second by an unlinked gene, tatE. A mutation previously assigned to the hcf106 homologue encoded at the tatABCD locus, mttA, lies instead in the tatB gene.

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Enzymes and associated electron transport systems that catalyse the respiratory reduction of nitrogen oxides and oxyanions

Berks¹,

Ferguson²,

Moir³

et al. 1995

Biochimica et Biophysica Acta (BBA) - Bioenergetics

567

539

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A common export pathway for proteins binding complex redox cofactors?

Berks

1996

Molecular Microbiology

629

526

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The precursor polypeptides of periplasmic proteins binding seven types of redox cofactor have unusually long signal sequences bearing a consensus (S/T)‐R‐R‐x‐F‐L‐K motif immediately before the hydrophobic region. Such ‘double‐arginine’ signal sequences are not, in general, found on the precursors of other periplasmic proteins. It is suggested that precursor proteins with double‐arginine signal sequences share a common specialization in their export pathway. The nature of this specialization, the structure of the double‐arginine signal sequences, and the possible relationship with the double‐arginine signal peptide‐dependent thylakoid import pathway are discussed.

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The Tat protein export pathway

Berks

Sargent

Palmer

2000

Molecular Microbiology

544

497

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SummaryThe Tat ( twin-arginine translocation) system is a bacterial protein export pathway with the remarkable ability to transport folded proteins across the cytoplasmic membrane. Preproteins are directed to the Tat pathway by signal peptides that bear a characteristic sequence motif, which includes consecutive arginine residues. Here, we review recent progress on the characterization of the Tat system and critically discuss the structure and operation of this major new bacterial protein export pathway.

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The twin-arginine translocation (Tat) protein export pathway

2012

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The twin-arginine translocation (Tat) protein export system is present in the cytoplasmic membranes of most bacteria and archaea and has the highly unusual property of transporting fully folded proteins. The system must therefore provide a transmembrane pathway that is large enough to allow the passage of structured macromolecular substrates of different sizes but that maintains the impermeability of the membrane to ions. In the Gram-negative bacterium Escherichia coli, this complex task can be achieved by using only three small membrane proteins: TatA, TatB and TatC. In this Review, we summarize recent advances in our understanding of how this remarkable machine operates.

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Ben C. Berks

Overlapping functions of components of a bacterial Sec-independent protein export pathway

Enzymes and associated electron transport systems that catalyse the respiratory reduction of nitrogen oxides and oxyanions

A common export pathway for proteins binding complex redox cofactors?

The Tat protein export pathway

The twin-arginine translocation (Tat) protein export pathway

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