(2014) Diphtheria-like disease caused by toxigenic Corynebacterium ulcerans strain. Sangal V, Nieminen L, Weinhardt B, et al. Groman NB, Schiller J, Russel J (1984) Corynebacterium ulcerans and Corynebacterium pseudotuberculosis responses to DNA probes derived from corynephage β and Corynebacterium diphtheriae. Infect Immun 49: 679–684.Ĭianciotto NP, Groman NB (1996) Extended host range of a beta-related corynebacteriophage. (1985) DNA relationships among some tox-bearing corynebacteriophages. Kantsone I, Lucenko I, Perevoscikovs J (2016) More than 20 years after re-emerging in the 1990s, diphtheria remains a public health problem in Latvia. (2003) Molecular epidemiology and characteristics of Corynebacterium diphtheriae and Corynebacterium ulcerans strains isolated in Italy during the 1990s. Von Hunolstein C, Alfarone G, Scopetti F, et al. Hadfield TL, McEvoy P, Polotsky Y, et al. Galazka A (2000) The changing epidemiology of diphtheria in the vaccine era. (2006) Experimental model of infection with non-toxigenic strains of Corynebacterium diphtheriae and development of septic arthritis. Puliti M, von Hunolstein C, Marangi M, et al. Murphy JR (1996) Corynebacterium diphtheriae, In: Baron S, Editor, Medical Microbiology, Galveston (TX): University of Texas Mdical Branch at Galveston. doi: 10.1371/journal.pone.0180105īurkovski A (2013) Diphtheria, In: Rosenberg E, DeLong EF, Lory S, et al., Editors, The Prokaryotes Human Microbiology, 4 Eds., New York: Springer, 237–245. (2017) Analysis of Corynebacterium diphtheriae macrophage interaction: dispensability of corynomycolic acids for inhibition of phagolysosome maturation and identification of a new gene involved in synthesis of the corynomycolic acid layer. Takayama K, Wang C, Besra GS (2005) Pathway to synthesis and processing of mycolic acids in Mycobacterium tuberculosis. Nishiuchi Y, Baba T, Yano I (2000) Mycolic acids from Rhodococcus, Gordonia, and Dietzia. (2011) Characterization of mycolic acids from the pathogen Rhodococcus equi by tandem mass spectrometry with electrospray ionization. (2007) The key role of the mycolic acid content in the functionality of the cell wall permeability barrier in Corynebacterineae. Sutcliffe IC (1997) Macroamphiphilic cell envelope components of Rhodococcus equi and closely related bacteria. (2001) Structure of the cell envelope of corynebacteria: importance of the non-covalently bound lipids in the formation of the cell wall permeability barrier and fracture plane. ISRN Microbiol 2013: 935736.ĭaffé M (2005) The cell envelope of corynebacteria, Boca Raton, Fla, USA: Taylor & Francis. doi: 10.1099/ijs.0.65780-0īurkovski A (2013) Cell envelope of corynebacteria: structure and influence on pathogenicity. Zhi XY, Li WJ, Stackebrandt E (2009) An update of the structure and 16S rRNA gene sequence-based definition of higher ranks of the class Actinobacteria, with the proposal of two new suborders and four new families and emended descriptions of the existing higher taxa. (2007) Genomics of Actinobacteria: tracing the evolutionary history of an ancient phylum. Tauch A, Sandbote J (2014) The family Corynebacteriaceae, Rosenberg E, DeLong E, Lory S, et al., Editors, Berlin: Springer. Adhesion properties of toxigenic corynebacteria. This review gives a comprehensive update of recent data concerning the adhesion properties of toxigenic corynebacteria, demonstrating that adhesion is a multi-factorial process.Ĭitation: Lisa Ott. However, the molecular mechanisms contributing to host colonization are barely understood. ulcerans are able to colonize different types of epithelial cells in a strain-specific manner, independent of the presence of the tox gene. ulcerans are increasingly being reported indicating that this specie s is an emerging pathogen today. Nevertheless, systemic infections caused by C. diphtheriae may be the most highly investigated species of the genus Corynebacterium. Vladimirov ( Russian: Владимиров) or Vladimirova (feminine Russian: Владимирова) is a Russian and Bulgarian surname, that is derived from the male given name Vladimir and literally means Vladimir's.Corynebacterium diphtheriae, Corynebacterium pseudotuberculosis and Corynebacterium ulcerans share one distinctive feature: they are all putative carriers of the diphtheria toxin (DT), encoded by a β-corynephage integrated into the genome.
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