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A Functional Gene Array for Detection of Bacterial Virulence Elements
Author(s) -
Crystal Jaing,
Shea N. Gardner,
Kevin McLoughlin,
Nisha Mulakken,
Michelle Alegria-Hartman,
Phillip W. Banda,
Peter Williams,
Pauline Gu,
Mark C. Wagner,
Chitra Manohar,
Tom Slezak
Publication year - 2008
Publication title -
plos one
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.99
H-Index - 332
ISSN - 1932-6203
DOI - 10.1371/journal.pone.0002163
Subject(s) - virulence , biology , enterococcus faecalis , dna microarray , gene , antibiotic resistance , horizontal gene transfer , genome , escherichia coli , plasmid , microbiology and biotechnology , genetics , pathogenic bacteria , bacterial genome size , bacteria , computational biology , gene expression
Emerging known and unknown pathogens create profound threats to public health. Platforms for rapid detection and characterization of microbial agents are critically needed to prevent and respond to disease outbreaks. Available detection technologies cannot provide broad functional information about known or novel organisms. As a step toward developing such a system, we have produced and tested a series of high-density functional gene arrays to detect elements of virulence and antibiotic resistance mechanisms. Our first generation array targets genes from Escherichia coli strains K12 and CFT073, Enterococcus faecalis and Staphylococcus aureus . We determined optimal probe design parameters for gene family detection and discrimination. When tested with organisms at varying phylogenetic distances from the four target strains, the array detected orthologs for the majority of targeted gene families present in bacteria belonging to the same taxonomic family. In combination with whole-genome amplification, the array detects femtogram concentrations of purified DNA, either spiked in to an aerosol sample background, or in combinations from one or more of the four target organisms. This is the first report of a high density NimbleGen microarray system targeting microbial antibiotic resistance and virulence mechanisms. By targeting virulence gene families as well as genes unique to specific biothreat agents, these arrays will provide important data about the pathogenic potential and drug resistance profiles of unknown organisms in environmental samples.

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