SEARCH

SEARCH BY CITATION

References

  • Alm, R.A., and Mattick, J.S. (1996) Identification of two genes with prepilin-like leader sequences involved in type 4 fimbrial biogenesis in Pseudomonas aeruginosa. J Bacteriol 178: 38093817.
  • Alm, R.A., and Mattick, J.S. (1997) Genes involved in the biogenesis and function of type 4 fimbriae in Pseudomonas aeruginosa. Gene 192: 8998.
  • Alm, R.A., Bodero, A.J., Free, P.D., and Mattick, J.S. (1996a) Identification of a novel gene, pilZ, essential for type 4 fimbrial biogenesis in Pseudomonas aeruginosa. J Bacteriol 178: 4653.
  • Alm, R.A., Hallinan, J.P., Watson, A.A., and Mattick, J.S. (1996b) Fimbrial biogenesis genes of Pseudomonas aeruginosa: pilW and pilX increase the similarity of type 4 fimbriae to the GSP protein-secretion systems and pilY1 encodes a gonococcal PilC homologue. Mol Microbiol 22: 161173.
  • Arts, J., Van Boxtel, R., Filloux, A., Tommassen, J., and Koster, M. (2007) Export of the pseudopilin XcpT of the Pseudomonas aeruginosa type II secretion system via the signal recognition particle-Sec pathway. J Bacteriol 189: 20692076.
  • Balasingham, S.V., Collins, R.F., Assalkhou, R., Homberset, H., Frye, S.A., Derrick, J.P., and Tønjum, T. (2007) Interactions between the lipoprotein PilP and the secretin PilQ in Neisseria meningitidis. J Bacteriol 189: 57165727.
  • Bieber, D., Ramer, S.W., Wu, C.Y., Murray, W.J., Tobe, T., Fernandez, R., and Schoolnik, G.K. (1998) Type IV pili, transient bacterial aggregates, and virulence of enteropathogenic Escherichia coli. Science 280: 21142118.
  • Bose, N., and Taylor, R.K. (2005) Identification of a TcpC–TcpQ outer membrane complex involved in the biogenesis of the toxin-coregulated pilus of Vibrio cholerae. J Bacteriol 187: 22252232.
  • Carbonnelle, E., Helaine, S., Prouvensier, L., Nassif, X., and Pelicic, V. (2005) Type IV pilus biogenesis in Neisseria meningitidis: PilW is involved in a step occurring after pilus assembly, essential for fibre stability and function. Mol Microbiol 55: 5464.
  • Carbonnelle, E., Helaine, S., Nassif, X., and Pelicic, V. (2006) A systematic genetic analysis in Neisseria meningitidis defines the Pil proteins required for assembly, functionality, stabilization and export of type IV pili. Mol Microbiol 61: 15101522.
  • Chami, M., Guilvout, I., Gregorini, M., Rémigy, H.W., Müller, S.A., Valerio, M., et al. (2005) Structural insights into the secretin PulD and its trypsin-resistant core. J Biol Chem 280: 3773237741.
  • Collins, R.F., Frye, S.A., Kitmitto, A., Ford, R.C., Tønjum, T., and Derrick, J.P. (2004) Structure of the Neisseria meningitidis outer membrane PilQ secretin complex at 12 Å resolution. J Biol Chem 279: 3975039756.
  • Collins, R.F., Frye, S.A., Balasingham, S., Ford, R.C., Tønjum, T., and Derrick, J.P. (2005) Interaction with type IV pili induces structural changes in the bacterial outer membrane secretin PilQ. J Biol Chem 280: 1892318930.
  • Craig, L., Pique, M.E., and Tainer, J.A. (2004) Type IV pilus structure and bacterial pathogenicity. Nat Rev Microbiol 2: 363378.
  • Crowther, L.J., Anantha, R.P., and Donnenberg, M.S. (2004) The inner membrane subassembly of the enteropathogenic Escherichia coli bundle-forming pilus machine. Mol Microbiol 52: 6779.
  • Crowther, L.J., Yamagata, A., Craig, L., Tainer, J.A., and Donnenberg, M.S. (2005) The ATPase activity of BfpD is greatly enhanced by zinc and allosteric interactions with other Bfp proteins. J Biol Chem 280: 2483924848.
  • Drake, S.L., Sandstedt, S.A., and Koomey, M. (1997) PilP, a pilus biogenesis lipoprotein in Neisseria gonorrhoeae, affects expression of PilQ as a high-molecular-mass multimer. Mol Microbiol 23: 657668.
  • Elleman, T.C., Hoyne, P.A., Stewart, D.J., McKern, N.M., and Peterson, J.E. (1986) Expression of pili from Bacteroides nodosus in Pseudomonas aeruginosa. J Bacteriol 168: 574580.
  • Faruque, S.M., Zhu, J., Asadulghani, Kamruzzaman, M., and Mekalanos, J.J. (2003) Examination of diverse toxin-coregulated pilus-positive Vibrio cholerae strains fails to demonstrate evidence for Vibrio pathogenicity island phage. Infect Immun 71: 29932999.
  • Francetic, O., Buddelmeijer, N., Lewenza, S., Kumamoto, C.A., and Pugsley, A.P. (2007) Signal recognition particle-dependent inner membrane targeting of the PulG pseudopilin component of a type II secretion system. J Bacteriol 189: 17831793.
  • Golovanov, A.P., Balasingham, S., Tzitzilonis, C., Goult, B.T., Lian, L.Y., Homberset, H., et al. (2006) The solution structure of a domain from the Neisseria meningitidis lipoprotein PilP reveals a new β-sandwich fold. J Mol Biol 364: 186195.
  • Guilvout, I., Chami, M., Engel, A., Pugsley, A.P., and Bayan, N. (2006) Bacterial outer membrane secretin PulD assembles and inserts into the inner membrane in the absence of its pilotin. EMBO J 25: 52415249.
  • Helaine, S., Dyer, D.H., Nassif, X., Pelicic, V., and Forest, K.T. (2007) 3D structure/function analysis of PilX reveals how minor pilins can modulate the virulence properties of type IV pili. Proc Natl Acad Sci USA 104: 1588815893.
  • Horiuchi, T., and Komano, T. (1998) Mutational analysis of plasmid R64 thin pilus prepilin: the entire prepilin sequence is required for processing by type IV prepilin peptidase. J Bacteriol 180: 46134620.
  • Hwang, J., Bieber, D., Ramer, S.W., Wu, C.Y., and Schoolnik, G.K. (2003) Structural and topographical studies of the type IV bundle-forming pilus assembly complex of enteropathogenic Escherichia coli. J Bacteriol 185: 66956701.
  • Kachlany, S.C., Planet, P.J., DeSalle, R., Fine, D.H., Figurski, D.H., and Kaplan, J.B. (2001) flp-1, the first representative of a new pilin gene subfamily, is required for non-specific adherence of Actinobacillus actinomycetemcomitans. Mol Microbiol 40: 542554.
  • Karaolis, D.K., Somara, S., Maneval, D.R., Jr, Johnson, J.A., and Kaper, J.B. (1999) A bacteriophage encoding a pathogenicity island, a type IV pilus and a phage receptor in cholera bacteria. Nature 399: 375379.
  • Kim, K., Oh, J., Han, D., Kim, E.E., Lee, B., and Kim, Y. (2006) Crystal structure of PilF: functional implication in the type 4 pilus biogenesis in Pseudomonas aeruginosa. Biochem Biophys Res Commun 340: 10281038.
  • Kirn, T.J., Bose, N., and Taylor, R.K. (2003) Secretion of a soluble colonization factor by the TCP type 4 pilus biogenesis pathway in Vibrio cholerae. Mol Microbiol 49: 8192.
  • LaPointe, C.F., and Taylor, R.K. (2000) The type 4 prepilin peptidases comprise a novel family of aspartic acid proteases. J Biol Chem 275: 15021510.
  • McNamara, B.P., and Donnenberg, M.S. (2000) Evidence for specificity in type 4 pilus biogenesis by enteropathogenic Escherichia coli. Microbiology 146: 719729.
  • Maier, B., Potter, L., So, M., Long, C.D., Seifert, H.S., and Sheetz, M.P. (2002) Single pilus motor forces exceed 100 pN. Proc Natl Acad Sci USA 99: 1601216017.
  • Mattick, J.S. (2002) Type IV pili and twitching motility. Annu Rev Microbiol 56: 289314.
  • Narita, S., and Tokuda, H. (2006) An ABC transporter mediating the membrane detachment of bacterial lipoproteins depending on their sorting signals. FEBS Lett 580: 11641170.
  • Nouwen, N., Ranson, N., Saibil, H., Wolpensinger, B., Engel, A., Ghazi, A., and Pugsley, A.P. (1999) Secretin PulD: association with pilot PulS, structure, and ion-conducting channel formation. Proc Natl Acad Sci USA 96: 81738177.
  • Nudleman, E., Wall, D., and Kaiser, D. (2006) Polar assembly of the type IV pilus secretin in Myxococcus xanthus. Mol Microbiol 60: 1629.
  • Opalka, N., Beckmann, R., Boisset, N., Simon, M.N., Russel, M., and Darst, S.A. (2003) Structure of the filamentous phage pIV multimer by cryo-electron microscopy. J Mol Biol 325: 461470.
  • Peabody, C.R., Chung, Y.J., Yen, M.R., Vidal-Ingigliardi, D., Pugsley, A.P., and Saier, M.H., Jr (2003) Type II protein secretion and its relationship to bacterial type IV pili and archaeal flagella. Microbiology 149: 30513072.
  • Pinkner, J.S., Remaut, H., Buelens, F., Miller, E., Aberg, V., Pemberton, N., et al. (2006) Rationally designed small compounds inhibit pilus biogenesis in uropathogenic bacteria. Proc Natl Acad Sci USA 103: 1789717902.
  • Pugsley, A.P. (1993) The complete general secretory pathway in gram-negative bacteria. Microbiol Rev 57: 50108.
  • Rakotoarivonina, H., Jubelin, G., Hebraud, M., Gaillard-Martinie, B., Forano, E., and Mosoni, P. (2002) Adhesion to cellulose of the Gram-positive bacterium Ruminococcus albus involves type IV pili. Microbiology 148: 18711880.
  • Ramer, S.W., Bieber, D., and Schoolnik, G.K. (1996) BfpB, an outer membrane lipoprotein required for the biogenesis of bundle-forming pili in enteropathogenic Escherichia coli. J Bacteriol 178: 65556563.
  • Ramer, S.W., Schoolnik, G.K., Wu, C.Y., Hwang, J., Schmidt, S.A., and Bieber, D. (2002) The type IV pilus assembly complex: biogenic interaction among the bundle-forming pilus proteins of enteropathogenic Escherichia coli. J Bacteriol 184: 34573465.
  • Reguera, G., McCarthy, K.D., Mehta, T., Nicoll, J.S., Tuominen, M.T., and Lovley, D.R. (2005) Extracellular electron transfer via microbial nanowires. Nature 435: 10981101.
  • Sakai, D., and Komano, T. (2000) The pilL and pilN genes of IncI1 plasmids R64 and ColIb-P9 encode outer membrane lipoproteins responsible for thin pilus biogenesis. Plasmid 43: 149152.
  • Sakai, D., Horiuchi, T., and Komano, T. (2001) ATPase activity and multimer formation of PilQ protein are required for thin pilus biogenesis in plasmid R64. J Biol Chem 276: 1796817975.
  • Satyshur, K.A., Worzalla, G.A., Meyer, L.S., Heiniger, E.K., Aukema, K.G., Misic, A.M., and Forest, K.T. (2007) Crystal structures of the pilus retraction motor PilT suggest large domain movements and subunit cooperation drive motility. Structure 15: 363376.
  • Saulino, E.T., Thanassi, D.G., Pinkner, J.S., and Hultgren, S.J. (1998) Ramifications of kinetic partitioning on usher-mediated pilus biogenesis. EMBO J 17: 21772185.
  • Sauvonnet, N., Gounon, P., and Pugsley, A. (2000) PpdD type IV pilin of Escherichia coli K-12 can be assembled into pili in Pseudomonas aeruginosa. J Bacteriol 182: 848854.
  • Savvides, S.N. (2007) Secretion superfamily ATPases swing big. Structure 15: 255257.
  • Schmidt, S.A., Bieber, D., Ramer, S.W., Hwang, J., Wu, C.Y., and Schoolnik, G. (2001) Structure–function analysis of BfpB, a secretin-like protein encoded by the bundle-forming-pilus operon of enteropathogenic Escherichia coli. J Bacteriol 183: 48484859.
  • Sohel, I., Puente, J.L., Ramer, S.W., Bieber, D., Wu, C.Y., and Schoolnik, G.K. (1996) Enteropathogenic Escherichia coli: identification of a gene cluster coding for bundle-forming pilus morphogenesis. J Bacteriol 178: 26132628.
  • Soto, G.E., and Hultgren, S.J. (1999) Bacterial adhesins: common themes and variations in architecture and assembly. J Bacteriol 181: 10591071.
  • Stone, K.D., Zhang, H.Z., Carlson, L.K., and Donnenberg, M.S. (1996) A cluster of fourteen genes from enteropathogenic Escherichia coli is sufficient for the biogenesis of a type IV pilus. Mol Microbiol 20: 325337.
  • Strom, M.S., and Lory, S. (1987) Mapping of export signals of Pseudomonas aeruginosa pilin with alkaline phosphatase fusions. J Bacteriol 169: 31813188.
  • Strom, M.S., and Lory, S. (1991) Amino acid substitutions in pilin of Pseudomonas aeruginosa. Effect on leader peptide cleavage, amino-terminal methylation, and pilus assembly. J Biol Chem 266: 16561664.
  • Tomich, M., Planet, P.J., and Figurski, D.H. (2007) The tad locus: postcards from the widespread colonization island. Nat Rev Microbiol 5: 363375.
  • Tripathi, S.A., and Taylor, R.K. (2007) Membrane association and multimerization of TcpT, the cognate ATPase ortholog of the Vibrio cholerae toxin co-regulated pilus biogenesis apparatus. J Bacteriol 189: 44014409.
  • Turner, L.R., Lara, J.C., Nunn, D.N., and Lory, S. (1993) Mutations in the consensus ATP-binding sites of XcpR and PilB eliminate extracellular protein secretion and pilus biogenesis in Pseudomonas aeruginosa. J Bacteriol 175: 49624969.
  • Vallenet, D., Labarre, L., Rouy, Z., Barbe, V., Bocs, S., Cruveiller, S., et al. (2006) MaGe: a microbial genome annotation system supported by synteny results. Nucleic Acids Res 34: 5365.
  • Varga, J.J., Nguyen, V., O'Brien, D.K., Rodgers, K., Walker, R.A., and Melville, S.B. (2006) Type IV pili-dependent gliding motility in the Gram-positive pathogen Clostridium perfringens and other Clostridia. Mol Microbiol 62: 680694.
  • Voulhoux, R., Bos, M.P., Geurtsen, J., Mols, M., and Tommassen, J. (2003) Role of a highly conserved bacterial protein in outer membrane protein assembly. Science 299: 262265.
  • Winther-Larsen, H.C., Wolfgang, M.C., Van Putten, J.P., Roos, N., Aas, F.E., Egge-Jacobsen, W.M., et al. (2007) Pseudomonas aeruginosa type IV pilus expression in Neisseria gonorrhoeae: effects of pilin subunit composition on function and organelle dynamics. J Bacteriol 189: 66766685.
  • Wolfgang, M., Park, H.S., Hayes, S.F., Van Putten, J.P., and Koomey, M. (1998) Suppression of an absolute defect in type IV pilus biogenesis by loss-of-function mutations in pilT, a twitching motility gene in Neisseria gonorrhoeae. Proc Natl Acad Sci USA 95: 1497314978.
  • Wolfgang, M., Van Putten, J.P., Hayes, S.F., Dorward, D., and Koomey, M. (2000) Components and dynamics of fiber formation define a ubiquitous biogenesis pathway for bacterial pili. EMBO J 19: 64086418.
  • Xicohtencatl-Cortes, J., Monteiro-Neto, V., Ledesma, M.A., Jordan, D.M., Francetic, O., Kaper, J.B., Puente, J.L., and Girón, J.A. (2007) Intestinal adherence associated with type IV pili of enterohemorrhagic Escherichia coli O157:H7. J Clin Invest 117: 35193529.
  • Yoshida, T., Kim, S.R., and Komano, T. (1999) Twelve pil genes are required for biogenesis of the R64 thin pilus. J Bacteriol 181: 20382043.