Signal Recognition Particle-Dependent Inner Membrane Targeting of the PulG Pseudopilin Component of a Type II Secretion System

Francetić, Olivera; Buddelmeijer, Nienke; Lewenza, Shawn; Kumamoto, Carol A.; Pugsley, Anthony P.

doi:10.1128/jb.01230-06

Cited by 59 publications

(57 citation statements)

References 65 publications

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“…Given the strong conservation of their N-terminal sequences, it is likely that other pilins and pseudopilins also use the SRP/Sec pathway. Indeed, similar conclusions were reached by Francetic et al in the accompanying paper on the export of the pseudopilin PulG of the type II secretion system of Klebsiella oxytoca (21). We propose that, after translocation, the (pseudo)pilins leave the Sec translocon laterally, after which they become recruited by their cognate machinery.…”

Section: Discussionsupporting

confidence: 86%

Export of the Pseudopilin XcpT of the Pseudomonas aeruginosa Type II Secretion System via the Signal Recognition Particle-Sec Pathway

et al. 2007

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Type IV pilins and pseudopilins are found in various prokaryotic envelope protein complexes, including type IV pili and type II secretion machineries of gram-negative bacteria, competence systems of gram-positive bacteria, and flagella and sugar-binding structures in members of the archaeal kingdom. The precursors of these proteins have highly conserved N termini, consisting of a short, positively charged leader peptide, which is cleaved off by a dedicated peptidase during maturation, and a hydrophobic stretch of approximately 20 amino acid residues. Which pathway is involved in the inner membrane translocation of these proteins is unknown. We used XcpT, the major pseudopilin from the type II secretion machinery of Pseudomonas aeruginosa, as a model to study this process. Transport of an XcpT-PhoA hybrid was shown to occur in the absence of other Xcp components in P. aeruginosa and in Escherichia coli. Experiments with conditional sec mutants and reporter-protein fusions showed that this transport process involves the cotranslational signal recognition particle targeting route and is dependent on a functional Sec translocon.

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Section: Discussionsupporting

confidence: 86%

Export of the Pseudopilin XcpT of the Pseudomonas aeruginosa Type II Secretion System via the Signal Recognition Particle-Sec Pathway

et al. 2007

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“…In addition to signal peptide cleavage, SPIV is also responsible for N-methylation of the phenylalanine at position ϩ1 relative to the cleavage site (116). Pseudopilin signal peptides show clear structural similarities to other types of bacterial signal peptides, and the pseudopilin precursors are most likely targeted to the membrane by signal recognition particle (SRP) and inserted by Sec pathways (9,43). The subsequent assembly of the pseudopilins into a type IV pilus is facilitated by a dedicated pilin assembly pathway.…”

Section: Signal Peptidase IV and Preflagellin Signal Peptidasementioning

confidence: 99%

Membrane Proteases in the Bacterial Protein Secretion and Quality Control Pathway

Dalbey

Wang

Dijl

2012

Microbiol Mol Biol Rev

126

129

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SUMMARY Proteolytic cleavage of proteins that are permanently or transiently associated with the cytoplasmic membrane is crucially important for a wide range of essential processes in bacteria. This applies in particular to the secretion of proteins and to membrane protein quality control. Major progress has been made in elucidating the structure-function relationships of many of the responsible membrane proteases, including signal peptidases, signal peptide hydrolases, FtsH, the rhomboid protease GlpG, and the site 1 protease DegS. These enzymes employ very different mechanisms to cleave substrates at the cytoplasmic and extracytoplasmic membrane surfaces or within the plane of the membrane. This review highlights the different ways that bacterial membrane proteases degrade their substrates, with special emphasis on catalytic mechanisms and substrate delivery to the respective active sites.

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“…Type IV pilins in Gram-negative bacteria are synthesized as prepilins, with a leader sequence that is cleaved after a conserved glycine (defined as position Ϫ1) by a specific leader peptidase, PilD, in the inner membrane (3,16,61). Mature pilin subunits have a hydrophobic amino-terminal segment with a consensus sequence that includes a conserved phenylalanine (position 1) and glutamic acid (position 5), which forms the core of the pilus fiber (14).…”

mentioning

confidence: 99%

Two Isoforms of Geobacter sulfurreducens PilA Have Distinct Roles in Pilus Biogenesis, Cytochrome Localization, Extracellular Electron Transfer, and Biofilm Formation

Richter¹,

Sandler²,

Weis³

2012

Journal of Bacteriology

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Signal Recognition Particle-Dependent Inner Membrane Targeting of the PulG Pseudopilin Component of a Type II Secretion System

Cited by 59 publications

References 65 publications

Export of the Pseudopilin XcpT of the Pseudomonas aeruginosa Type II Secretion System via the Signal Recognition Particle-Sec Pathway

Export of the Pseudopilin XcpT of the Pseudomonas aeruginosa Type II Secretion System via the Signal Recognition Particle-Sec Pathway

Membrane Proteases in the Bacterial Protein Secretion and Quality Control Pathway

Two Isoforms of Geobacter sulfurreducens PilA Have Distinct Roles in Pilus Biogenesis, Cytochrome Localization, Extracellular Electron Transfer, and Biofilm Formation

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