Type II protein secretion and its relationship to bacterial type IV pili and archaeal flagella

Peabody, Christopher R.; Chung, Yong Joon; Yen, Ming‐Ren; Vidal-Ingigliardi, Dominique; Pugsley, Anthony P.; Saier, Milton H.

doi:10.1099/mic.0.26364-0

Cited by 338 publications

(348 citation statements)

References 87 publications

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“…Although social motility appears to be a mechanism conserved among diverse Gram-negative bacteria, very few genetic determinants of this mechanism are conserved in sequence among the bacteria that display social (or ''twitching'') motility, M. xanthus and P. aeruginosa (Peabody et al 2003). The gene encoding glycogen phosphorylase (EC 2.4.1.1), which cleaves polysaccharides with a(1 / 4) glucan linkages, is conserved among M. xanthus, P. aeruginosa, and Haemophilus influenzae, which has been shown recently to display S motility (Bakaletz et al 2005).…”

Section: Discussionmentioning

confidence: 99%

Transposon Insertions ofmagellan-4That Impair Social Gliding Motility inMyxococcus xanthus

Youderian

Hartzell

2006

Genetics

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Myxococcus xanthus has two different mechanisms of motility, adventurous (A) motility, which permits individual cells to glide over solid surfaces, and social (S) motility, which permits groups of cells to glide. To identify the genes involved in S-gliding motility, we mutagenized a DaglU (A ÿ ) strain with the defective transposon, magellan-4, and screened for S ÿ mutants that form nonmotile colonies. Sequence analysis of the sites of the magellan-4 insertions in these mutants and the alignment of these sites with the M. xanthus genome sequence show that two-thirds of these insertions lie within 27 of the 37 nonessential genes known to be required for social motility, including those necessary for the biogenesis of type IV pili, exopolysaccharide, and lipopolysaccharide. The remaining insertions also identify 31 new, nonessential genes predicted to encode both structural and regulatory determinants of S motility. These include three tetratricopeptide repeat proteins, several regulators of transcription that may control the expression of genes involved in pilus extension and retraction, and additional enzymes involved in polysaccharide metabolism. Three insertions that abolish S motility lie within genes predicted to encode glycolytic enzymes, suggesting that the signal for pilus retraction may be a simple product of exopolysaccharide catabolism.

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Section: Discussionmentioning

confidence: 99%

Transposon Insertions ofmagellan-4That Impair Social Gliding Motility inMyxococcus xanthus

Youderian

Hartzell

2006

Genetics

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“…The ATPase XcpR (GspE) and the multispanning inner-membrane component XcpS (GspF) show considerable sequence similarity to PilB and PilC, respectively, which are both required for the formation of type IV pili (Peabody et al, 2003). This similarity suggests that XcpR and XcpS may play key roles in the assembly of the pilus-like structure formed by the pseudopilins.…”

Section: Introductionmentioning

confidence: 99%

Interaction domains in the Pseudomonas aeruginosa type II secretory apparatus component XcpS (GspF)

Arts

Groot

Ball³

et al. 2007

Microbiology

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“…Neisserial type IV pilus biogenesis represents one of the terminal branches of the type II secretion pathway (Pugsley, 1993), and it requires the complex interactions of 15 proteins (Carbonnelle et al, 2005;Tønjum & Koomey, 1997), which are similar, if not orthologous, to those involved in type II secretion in general (Nunn, 1999;Peabody et al, 2003;Pugsley, 1993). To initiate pilus assembly, the pilin subunit PilE, in its membrane bound state, is processed by the pre-pilin peptidase PilD, removing a short hydrophilic N-terminal peptide, and methylating the N-terminal amino acid (Nunn & Lory, 1991).…”

Section: Introductionmentioning

confidence: 99%

Topology of the outer-membrane secretin PilQ from Neisseria meningitidis

et al. 2006

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Neisseria meningitidis is the causative agent of epidemic meningococcal meningitis and septicaemia. Type IV pili are surface organelles that mediate a variety of functions, including adhesion, twitching motility, and competence for DNA binding and uptake in transformation. The secretin PilQ is required for type IV pilus expression at the cell surface, and forms a dodecameric cage-like macromolecular complex in the meningococcal outer membrane. PilQ-null mutants are devoid of surface pili, and prevailing evidence suggests that the PilQ complex facilitates extrusion and retraction of type IV pili across the outer membrane. Defining the orientation of the meningococcal PilQ complex in the membrane is a prerequisite for understanding the structure-function relationships of this important protein in pilus biology. In order to begin to define the topology of the PilQ complex in the outer membrane, polyhistidine insertions in N-and C-terminal regions of PilQ were constructed, and their subcellular locations examined. Notably, the insertion epitopes at residues 205 and 678 were located within the periplasm, whereas residue 656 was exposed at the outer surface of the outer membrane. Using electron microscopy with Ni-NTA gold labelling, it was demonstrated that the insertion at residue 205 within the N-terminus mapped to a site on the arm-like features of the 3D structure of the PilQ multimer. Interestingly, mutation of the same region gave rise to an increase in vancomycin permeability through the PilQ complex. The results yield novel information on the PilQ N-terminal location and function in the periplasm, and reveal a complex organization of the membrane-spanning secretin in vivo.

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Type II protein secretion and its relationship to bacterial type IV pili and archaeal flagella

Cited by 338 publications

References 87 publications

Transposon Insertions ofmagellan-4That Impair Social Gliding Motility inMyxococcus xanthus

Transposon Insertions ofmagellan-4That Impair Social Gliding Motility inMyxococcus xanthus

Interaction domains in the Pseudomonas aeruginosa type II secretory apparatus component XcpS (GspF)

Topology of the outer-membrane secretin PilQ from Neisseria meningitidis

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