Dr Vladimir Pelicic

Publications


Journals

  • Georgiadou M; Castagnini M; Karimova G; Ladant D; Pelicic V. (10 Apr 2012). Large-scale study of the interactions between proteins involved in type IV pilus biology in Neisseria meningitidis: characterization of a subcomplex involved in pilus assembly. Mol Microbiol. DOI.
  • Nagorska K; Silhan J; Li Y; Pelicic V; Freemont PS; Baldwin GS; Tang CM. (Mar 2012). A network of enzymes involved in repair of oxidative DNA damage in Neisseria meningitidis. Mol Microbiol. 83:1064-1079. DOI.
  • Cehovin A; Kroll JS; Pelicic V. (16 Sep 2011). Testing the vaccine potential of PilV, PilX and ComP, minor subunits of Neisseria meningitidis type IV pili. Vaccine. 29:6858-6865. DOI.
  • Szeto TH; Dessen A; Pelicic V. (Aug 2011). Structure/function analysis of Neisseria meningitidis PilW, a conserved protein that plays multiple roles in type IV pilus biology. Infect Immun. 79:3028-3035. DOI.
  • Cehovin A; Winterbotham M; Lucidarme J; Borrow R; Tang CM; Exley RM; Pelicic V. (5 Jul 2010). Sequence conservation of pilus subunits in Neisseria meningitidis. Vaccine. 28:4817-4826. DOI.
  • Brown DR; Helaine S; Carbonnelle E; Pelicic V. (Jul 2010). Systematic functional analysis reveals that a set of seven genes is involved in fine-tuning of the multiple functions mediated by type IV pili in Neisseria meningitidis. Infect Immun. 78:3053-3063. DOI.
  • Rusniok C; Vallenet D; Floquet S; Ewles H; Mouzé-Soulama C; Brown D; Lajus A; Buchrieser C; et alMédigue C; Glaser P; Pelicic V. (2009). NeMeSys: a biological resource for narrowing the gap between sequence and function in the human pathogen Neisseria meningitidis. Genome Biol. 10:R110. DOI.
  • Trindade MB; Job V; Contreras-Martel C; Pelicic V; Dessen A. (16 May 2008). Structure of a widely conserved type IV pilus biogenesis factor that affects the stability of secretin multimers. JOURNAL OF MOLECULAR BIOLOGY. 378:1031-1039. Author weblink DOI.
  • Pelicic V. (1 May 2008). Type IV pili: e pluribus unum?. MOLECULAR MICROBIOLOGY. 68:827-837. Author weblink DOI.
  • Helaine S; Dyer DH; Nassif X; Pelicic V; Forest KT. (2 Oct 2007). 3D structure/function analysis of PilX reveals how minor pilins can modulate the virulence properties of type IV pili. Proc Natl Acad Sci U S A. 104:15888-15893. DOI.
  • Arraiano CM; Bamford J; Brüssow H; Carpousis AJ; Pelicic V; Pflüger K; Polard P; Vogel J. (Sep 2007). Recent advances in the expression, evolution, and dynamics of prokaryotic genomes. J Bacteriol. 189:6093-6100. DOI.
  • Chamot-Rooke J; Rousseau B; Lanternier F; Mikaty G; Mairey E; Malosse C; Bouchoux G; Pelicic V; et alCamoin L; Nassif X; Duménil G. (11 Sep 2007). Alternative Neisseria spp. type IV pilin glycosylation with a glyceramido acetamido trideoxyhexose residue. Proc Natl Acad Sci U S A. 104:14783-14788. DOI.
  • Carbonnelle E; Helaine S; Nassif X; Pelicic V. (Sep 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. 61:1510-1522. DOI.
  • Linhartova I; Basler M; Ichikawa J; Pelicic V; Osicka R; Lory S; Nassif X; Sebo P. (Oct 2006). Meningococcal adhesion suppresses proapoptotic gene expression and promotes expression of genes supporting early embryonic and cytoprotective signaling of human endothelial cells. FEMS Microbiol Lett. 263:109-118. DOI.
  • Hélaine S; Carbonnelle E; Prouvensier L; Beretti JL; Nassif X; Pelicic V. (Jan 2005). PilX, a pilus-associated protein essential for bacterial aggregation, is a key to pilus-facilitated attachment of Neisseria meningitidis to human cells. Mol Microbiol. 55:65-77. DOI.
  • Carbonnelle E; Hélaine S; Prouvensier L; Nassif X; Pelicic V. (Jan 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. 55:54-64. DOI.
  • Forman S; Linhartova I; Osicka R; Nassif X; Sebo P; Pelicic V. (Apr 2003). Neisseria meningitidis RTX proteins are not required for virulence in infant rats. Infect Immun. 71:2253-2257.
  • Geoffroy MC; Floquet S; Métais A; Nassif X; Pelicic V. (Mar 2003). Large-scale analysis of the meningococcus genome by gene disruption: resistance to complement-mediated lysis. Genome Res. 13:391-398. DOI.
  • Raynaud C; Guilhot C; Rauzier J; Bordat Y; Pelicic V; Manganelli R; Smith I; Gicquel B; et alJackson M. (Jul 2002). Phospholipases C are involved in the virulence of Mycobacterium tuberculosis. Mol Microbiol. 45:203-217.
  • Boechat N; Bouchonnet F; Bonay M; Grodet A; Pelicic V; Gicquel B; Hance AJ. (15 May 2001). Culture at high density improves the ability of human macrophages to control mycobacterial growth. J Immunol. 166:6203-6211.
  • Pelicic V; Morelle S; Lampe D; Nassif X. (Oct 2000). Mutagenesis of Neisseria meningitidis by in vitro transposition of Himar1 mariner. J Bacteriol. 182:5391-5398.
  • Reyrat JM; Pelicic V; Papini E; Montecucco C; Rappuoli R; Telford JL. (Oct 1999). Towards deciphering the Helicobacter pylori cytotoxin. Mol Microbiol. 34:197-204.
  • Triccas JA; Berthet FX; Pelicic V; Gicquel B. (Oct 1999). Use of fluorescence induction and sucrose counterselection to identify Mycobacterium tuberculosis genes expressed within host cells. Microbiology. 145 ( Pt 10):2923-2930.
  • Pelicic V; Reyrat JM; Sartori L; Pagliaccia C; Rappuoli R; Telford JL; Montecucco C; Papini E. (Aug 1999). Helicobacter pylori VacA cytotoxin associated with the bacteria increases epithelial permeability independently of its vacuolating activity. Microbiology. 145 ( Pt 8):2043-2050.
  • Reyrat JM; Lanzavecchia S; Lupetti P; de Bernard M; Pagliaccia C; Pelicic V; Charrel M; Ulivieri C; et alNorais N; Ji X; Cabiaux V; Papini E; Rappuoli R; Telford JL. (9 Jul 1999). 3D imaging of the 58 kDa cell binding subunit of the Helicobacter pylori cytotoxin. J Mol Biol. 290:459-470. DOI.
  • Bonay M; Bouchonnet F; Pelicic V; Lagier B; Grandsaigne M; Lecossier D; Grodet A; Vokurka M; et alGicquel B; Hance AJ. (May 1999). Effect of stimulation of human macrophages on intracellular survival of Mycobacterium bovis Bacillus Calmette-Guerin. Evaluation with a mycobacterial reporter strain. Am J Respir Crit Care Med. 159:1629-1637.
  • Berthet FX; Lagranderie M; Gounon P; Laurent-Winter C; Ensergueix D; Chavarot P; Thouron F; Maranghi E; et alPelicic V; Portnoï D; Marchal G; Gicquel B. (23 Oct 1998). Attenuation of virulence by disruption of the Mycobacterium tuberculosis erp gene. Science. 282:759-762.
  • Reyrat JM; Pelicic V; Gicquel B; Rappuoli R. (Sep 1998). Counterselectable markers: untapped tools for bacterial genetics and pathogenesis. Infect Immun. 66:4011-4017.
  • Lagier B; Pelicic V; Lecossier D; Prod'hom G; Rauzier J; Guilhot C; Gicquel B; Hance AJ. (Jul 1998). Identification of genetic loci implicated in the survival of Mycobacterium smegmatis in human mononuclear phagocytes. Mol Microbiol. 29:465-475.
  • Pelicic V; Reyrat JM; Gicquel B. (May 1998). Genetic advances for studying Mycobacterium tuberculosis pathogenicity. Mol Microbiol. 28:413-420.
  • Prod'hom G; Lagier B; Pelicic V; Hance AJ; Gicquel B; Guilhot C. (1 Jan 1998). A reliable amplification technique for the characterization of genomic DNA sequences flanking insertion sequences. FEMS Microbiol Lett. 158:75-81.
  • Pérez E; Gavigan JA; Otal I; Guilhot C; Pelicic V; Giquel B; Martín C. (1998). Tn611 transposon mutagenesis in Mycobacterium smegmatis using a temperature-sensitive delivery system. Methods Mol Biol. 101:187-198. DOI.
  • Pelicic V; Jackson M; Reyrat JM; Jacobs WR; Gicquel B; Guilhot C. (30 Sep 1997). Efficient allelic exchange and transposon mutagenesis in Mycobacterium tuberculosis. Proc Natl Acad Sci U S A. 94:10955-10960.
  • Quinting B; Reyrat JM; Monnaie D; Amicosante G; Pelicic V; Gicquel B; Frère JM; Galleni M. (14 Apr 1997). Contribution of beta-lactamase production to the resistance of mycobacteria to beta-lactam antibiotics. FEBS Lett. 406:275-278.
  • Aínsa JA; Pérez E; Pelicic V; Berthet FX; Gicquel B; Martín C. (Apr 1997). Aminoglycoside 2'-N-acetyltransferase genes are universally present in mycobacteria: characterization of the aac(2')-Ic gene from Mycobacterium tuberculosis and the aac(2')-Id gene from Mycobacterium smegmatis. Mol Microbiol. 24:431-441.
  • Pelicic V; Reyrat JM; Gicquel B. (1 Nov 1996). Positive selection of allelic exchange mutants in Mycobacterium bovis BCG. FEMS Microbiol Lett. 144:161-166.
  • Pelicic V; Reyrat JM; Gicquel B. (Jun 1996). Generation of unmarked directed mutations in mycobacteria, using sucrose counter-selectable suicide vectors. Mol Microbiol. 20:919-925.
  • Pelicic V; Reyrat JM; Gicquel B. (Feb 1996). Expression of the Bacillus subtilis sacB gene confers sucrose sensitivity on mycobacteria. J Bacteriol. 178:1197-1199.

Chapters in books

  • Pelicic V; Nassif X. Impact of genome sequences on mutational analysis of fungal and bacterial pathogens. In Pathogenomics: genome analysis of pathogenic microbes. 1-568. Hacker J (ed); Dobrindt U (ed). John Wiley & Sons (2006).
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