Brucella melitensis global gene expression study provides novel information on growth phase-specific gene regulation with potential insights for understanding Brucella:host initial interactions

Brucella spp. are the etiological agents of brucellosis, a zoonotic infectious disease that causes abortion in animals and chronic debilitating illness in humans. Natural Brucella infections occur primarily through an incompletely defined mechanism of adhesion to and penetration of mucosal epitheliu...

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Bibliographic Details
Published in:BMC microbiology 2009-05, Vol.9 (81), p.81-81, Article 81
Main Authors: Rossetti, Carlos A, Galindo, Cristi L, Lawhon, Sara D, Garner, Harold R, Adams, L Garry
Format: Article
Language:English
Subjects:
Brucella
Brucella melitensis
Brucella melitensis - genetics
Brucella melitensis - growth & development
Brucella melitensis - pathogenicity
Brucellosis
Brucellosis - microbiology
Development and progression
Gene expression
Gene Expression Profiling
Gene Expression Regulation, Bacterial
Genetic aspects
Genetic regulation
HeLa Cells
Host-Pathogen Interactions
Humans
Oligonucleotide Array Sequence Analysis
Research article
RNA, Bacterial - metabolism
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Summary:Brucella spp. are the etiological agents of brucellosis, a zoonotic infectious disease that causes abortion in animals and chronic debilitating illness in humans. Natural Brucella infections occur primarily through an incompletely defined mechanism of adhesion to and penetration of mucosal epithelium. In this study, we characterized changes in genome-wide transcript abundance of the most and the least invasive growth phases of B. melitensis cultures to HeLa cells, as a preliminary approach for identifying candidate pathogen genes involved in invasion of epithelial cells. B. melitensis at the late logarithmic phase of growth are more invasive to HeLa cells than mid-logarithmic or stationary growth phases. Microarray analysis of B. melitensis gene expression identified 414 up- and 40 down-regulated genes in late-log growth phase (the most invasive culture) compared to the stationary growth phase (the least invasive culture). As expected, the majority of up-regulated genes in late-log phase cultures were those associated with growth, including DNA replication, transcription, translation, intermediate metabolism, energy production and conversion, membrane transport, and biogenesis of the cell envelope and outer membrane; while the down-regulated genes were distributed among several functional categories. This Brucella global expression profile study provides novel information on growth phase-specific gene expression. Further characterization of some genes found differentially expressed in the most invasive culture will likely bring new insights into the initial molecular interactions between Brucella and its host.
ISSN:1471-2180
1471-2180
DOI:10.1186/1471-2180-9-81