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Items: 1 to 20 of 108


The Spr1875 protein confers resistance to the microglia-mediated killing of Streptococcus pneumoniae.

Peppoloni S, Colombari B, Beninati C, Felici F, Teti G, Speziale P, Ricci S, Ardizzoni A, Manca L, Blasi E.

Microb Pathog. 2013 Jun-Jul;59-60:42-7. doi: 10.1016/j.micpath.2013.04.002. Epub 2013 Apr 13.


The encapsulated strain TIGR4 of Streptococcus pneumoniae is phagocytosed but is resistant to intracellular killing by mouse microglia.

Peppoloni S, Ricci S, Orsi CF, Colombari B, De Santi MM, Messinò M, Fabio G, Zanardi A, Righi E, Braione V, Tripodi S, Chiavolini D, Cintorino M, Zoli M, Oggioni MR, Blasi E, Pozzi G.

Microbes Infect. 2010 Nov;12(12-13):990-1001. doi: 10.1016/j.micinf.2010.06.010. Epub 2010 Jul 6.


The lack of Pneumococcal surface protein C (PspC) increases the susceptibility of Streptococcus pneumoniae to the killing by microglia.

Peppoloni S, Colombari B, Neglia R, Quaglino D, Iannelli F, Oggioni MR, Pozzi G, Blasi E.

Med Microbiol Immunol. 2006 Mar;195(1):21-8. Epub 2005 May 21.


Protective activity of Streptococcus pneumoniae Spr1875 protein fragments identified using a phage displayed genomic library.

Cardaci A, Papasergi S, Midiri A, Mancuso G, Domina M, Cariccio VL, Mandanici F, Galbo R, Lo Passo C, Pernice I, Donato P, Ricci S, Biondo C, Teti G, Felici F, Beninati C.

PLoS One. 2012;7(5):e36588. doi: 10.1371/journal.pone.0036588. Epub 2012 May 3.


Contribution of different pneumococcal virulence factors to experimental meningitis in mice.

Ricci S, Gerlini A, Pammolli A, Chiavolini D, Braione V, Tripodi SA, Colombari B, Blasi E, Oggioni MR, Peppoloni S, Pozzi G.

BMC Infect Dis. 2013 Sep 24;13:444. doi: 10.1186/1471-2334-13-444.


Role of the (Mn)superoxide dismutase of Enterococcus faecalis in the in vitro interaction with microglia.

Peppoloni S, Posteraro B, Colombari B, Manca L, Hartke A, Giard JC, Sanguinetti M, Fadda G, Blasi E.

Microbiology. 2011 Jun;157(Pt 6):1816-22. doi: 10.1099/mic.0.047381-0. Epub 2011 Apr 7.


Toll-like receptor stimulation enhances phagocytosis and intracellular killing of nonencapsulated and encapsulated Streptococcus pneumoniae by murine microglia.

Ribes S, Ebert S, Regen T, Agarwal A, Tauber SC, Czesnik D, Spreer A, Bunkowski S, Eiffert H, Hanisch UK, Hammerschmidt S, Nau R.

Infect Immun. 2010 Feb;78(2):865-71. doi: 10.1128/IAI.01110-09. Epub 2009 Nov 23.


Zinc uptake by Streptococcus pneumoniae depends on both AdcA and AdcAII and is essential for normal bacterial morphology and virulence.

Bayle L, Chimalapati S, Schoehn G, Brown J, Vernet T, Durmort C.

Mol Microbiol. 2011 Nov;82(4):904-16. doi: 10.1111/j.1365-2958.2011.07862.x. Epub 2011 Oct 24.


Heterologous expression of pneumococcal virulence factor PspC on the surface of Lactococcus lactis confers adhesive properties.

Asmat TM, Klingbeil K, Jensch I, Burchhardt G, Hammerschmidt S.

Microbiology. 2012 Mar;158(Pt 3):771-80. doi: 10.1099/mic.0.053603-0. Epub 2012 Jan 5.


[Effect of clpE gene deletion on virulence of Streptococcus pneumoniae].

Zhang Q, Yin N, Xu W, Wang H, Pang D, Yang X, Yin Y, Zhang X.

Wei Sheng Wu Xue Bao. 2009 Feb;49(2):233-8. Chinese.


Bright fluorescent Streptococcus pneumoniae for live-cell imaging of host-pathogen interactions.

Kjos M, Aprianto R, Fernandes VE, Andrew PW, van Strijp JA, Nijland R, Veening JW.

J Bacteriol. 2015 Mar;197(5):807-18. doi: 10.1128/JB.02221-14. Epub 2014 Dec 15.


Pilus adhesin RrgA interacts with complement receptor 3, thereby affecting macrophage function and systemic pneumococcal disease.

Orrskog S, Rounioja S, Spadafina T, Gallotta M, Norman M, Hentrich K, Fälker S, Ygberg-Eriksson S, Hasenberg M, Johansson B, Uotila LM, Gahmberg CG, Barocchi M, Gunzer M, Normark S, Henriques-Normark B.

MBio. 2012 Dec 26;4(1):e00535-12. doi: 10.1128/mBio.00535-12.


Structural basis of the novel S. pneumoniae virulence factor, GHIP, a glycosyl hydrolase 25 participating in host-cell invasion.

Niu S, Luo M, Tang J, Zhou H, Zhang Y, Min X, Cai X, Zhang W, Xu W, Li D, Ding J, Hu Y, Wang D, Huang A, Yin Y, Wang D.

PLoS One. 2013 Jul 16;8(7):e68647. doi: 10.1371/journal.pone.0068647. Print 2013.


Role of an iron-dependent transcriptional regulator in the pathogenesis and host response to infection with Streptococcus pneumoniae.

Gupta R, Bhatty M, Swiatlo E, Nanduri B.

PLoS One. 2013;8(2):e55157. doi: 10.1371/journal.pone.0055157. Epub 2013 Feb 20.


The pavA gene of Streptococcus pneumoniae encodes a fibronectin-binding protein that is essential for virulence.

Holmes AR, McNab R, Millsap KW, Rohde M, Hammerschmidt S, Mawdsley JL, Jenkinson HF.

Mol Microbiol. 2001 Sep;41(6):1395-408.


Surface-associated lipoprotein PpmA of Streptococcus pneumoniae is involved in colonization in a strain-specific manner.

Cron LE, Bootsma HJ, Noske N, Burghout P, Hammerschmidt S, Hermans PW.

Microbiology. 2009 Jul;155(Pt 7):2401-10. doi: 10.1099/mic.0.026765-0. Epub 2009 Apr 23.


A C-terminal truncated mutation of licC attenuates the virulence of Streptococcus pneumoniae.

Zeng XF, Ma Y, Yang L, Zhou L, Xin Y, Chang L, Zhang JR, Hao X.

Res Microbiol. 2014 Oct;165(8):630-8. doi: 10.1016/j.resmic.2014.09.002. Epub 2014 Oct 2.


Infection with conditionally virulent Streptococcus pneumoniae Δpab strains induces antibody to conserved protein antigens but does not protect against systemic infection with heterologous strains.

Chimalapati S, Cohen J, Camberlein E, Durmort C, Baxendale H, de Vogel C, van Belkum A, Brown JS.

Infect Immun. 2011 Dec;79(12):4965-76. doi: 10.1128/IAI.05923-11. Epub 2011 Sep 26.

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