The bacteria of the Brucella genus are responsible for a worldwide zoonosis called brucellosis. They belong to the ␣-proteobacteria group, as many other bacteria that live in close association with a eukaryotic host. Importantly, the Brucellae are mainly intracellular pathogens, and the molecular mechanisms of their virulence are still poorly understood. Using the complete genome sequence of Brucella melitensis, we generated a database of protein-coding open reading frames (ORFs) and constructed an ORFeome library of 3091 Gateway Entry clones, each containing a defined ORF. This first version of the Brucella ORFeome (v1.1) provides the coding sequences in a user-friendly format amenable to high-throughput functional genomic and proteomic experiments, as the ORFs are conveniently transferable from the Entry clones to various Expression vectors by recombinational cloning. The cloning of the Brucella ORFeome v1.1 should help to provide a better understanding of the molecular mechanisms of virulence, including the identification of bacterial protein-protein interactions, but also interactions between bacterial effectors and their host's targets.[The following individuals kindly provided reagents, samples, or unpublished information as indicated in the paper: C. Baldwin and R. Goenka. The Open Biosystems company will act as a distributor of the Brucella ORFeome clones.]The ␣-subdivision of Proteobacteria (or purple bacteria) is of fundamental biological relevance because it contains not only freeliving organisms (e.g., Rhodobacter and Caulobacter), but also other members displaying a wide range of associations with eukaryotic organisms. These include (1) Agrobacterium, an extracellular plant pathogen that transforms its host by integrating its T-DNA into the plant's genome, (2) Rhizobium and related species, which are nitrogen-fixing symbionts of legumes, (3) Rickettsia, which live as obligate intracellular pathogens of man, but also insects, (4) Wolbachia, which are intracellular symbionts of insects, and finally, (5) Bartonella and Brucella, which are facultative intracellular pathogens of mammals. Considering their tendency to form close, if not intracellular associations with eukaryotic cells, it is not surprising that these bacteria developed a subtle expertise in manipulating or subverting their host's cellular processes. However, most of the strategies they exploit are still to be discovered at the molecular level. Brucella does not make exception to this rule.Brucella sp., the etiological agents of brucellosis, have significant impact on both livestock and human health worldwide.In livestock, infection is primarily associated with abortion and infertility, whereas in man it often results in a chronic, debilitating disease known as brucellosis or undulant fever (Acha and Szyfres 1989). Treatment is difficult and prolonged, largely as a result of the intracellular nature of this pathogen (Young 1989). Although live attenuated vaccines played a crucial role in successful eradication programs (B. abortus strain 1...
