Gene rearrangements in the vsa locus of Mycoplasma pulmonis

The vsa genes of Mycoplasma pulmonis encode the V-1 lipoproteins. Most V-1 proteins contain repetitive domains and are thought to be involved in mycop lasma-host cell interactions. Previously, we have reported the isolation an d characterization of six vsa genes comprising a 10-kb region of the genome of M. pulmonis strain RD735-15. In the current study, vsa-specific probes were used to clone several fragments from a genomic library of KD735-15 DNA and assemble a single 20-kb contig containing 11 vsa genes. The middle reg ion of the vsa locus contains a large open reading frame (ORF) that is not a vsa gene and has undergone an internal deletion in some strains. The ORF is predicted to encode a membrane protein that may have a role in disease p athogenesis. To examine vsa genes in a strain of M. pulmonis that is unrela ted to KD735-15, strain CT was studied. Through Southern hybridization and genomic cloning analyses, CT was found to possess homologs of the KD735-15 vsaA, -C, -E, and -F genes and two unique genes (vsaG and vsaH) that were n ot found in KD735-15. High-frequency, site-specific DNA inversions serve to regulate the phase-variable production of individual V-1 proteins. As a re sult of the sequence analysis of vsa recombination products, a model in whi ch DNA inversion arises from strand exchange involving at least six nucleot ides of the vrs box is proposed.