The NlpD/LppB homolog of the human pathogen, Bartonella bacilliformis, is an immunogenic 43-kDa protein that is encoded by a 1206-bp open reading frame (ORF-401). The regions flanking the nlpD/lppB gene of B. bacilliformis were sequenced to determine if it is located within the rpoS operon, as it is in most bacteria. We report that the B. bacilliformis nlpD/lppB gene is located immediately downstream of pcm, a gene encoding a 25-kDa protein, L-isoaspartyl protein carboxyl methyltransferase, that is a component of the rpoS operon in other bacteria. However, the genomic organization downstream of the B. bacilliformis nlpD/lppB gene appears to be distinct. In other bacteria, the third gene in the operon is rpoS, a gene that codes for an alternative sigma factor of RNA polymerase. In B. bacilliformis, an open reading frame encoding a protein homologous to the immunodominant YajC protein is located directly downstream of the nlpD/lppB gene. We show that Bartonella henselae, a close relative of B. bacilliformis, also shares this unusual organizational feature. Thus, the genomic organization of the nlpD/lppB genes of B. bacilliformis, and B. henselae appears to be unique among all bacteria for which the sequence of this region has been reported.