Molecular Characterization of Plasmid pBM300 from Bacillus megaterium QM B1551

Abstract

ABSTRACT Strain QM B1551 of Bacillus megaterium contains seven compatible plasmids: two small rolling circle plasmids and five theta-replicating plasmids with cross-hybridizing replicons. To expand our understanding of these plasmids, the replicon region (6.7 kb) from pBM300 was cloned, sequenced, and functionally characterized. Sequence analysis showed that the replication protein (RepM300) was highly homologous to two other plasmid Rep proteins of the same strain but to no other known proteins. Furthermore, the location of the replication origin was within the RepM300 coding region, and the origin contained three 12-base direct repeats. Deletion analysis of the replicon confirmed the role of the Rep protein and showed that open reading frame 2 (ORF2) was required for stability. However, the protein encoded by ORF2 is entirely different from the replicon stability proteins encoded by the other two replicons. The entire plasmid was isolated from the plasmid array by integrating a spectinomycin resistance gene and transforming a plasmidless strain, PV361. Complete sequencing showed that pBM300 was 26,300 bp long, had a G+C content of 35.2%, and contained 20 ORFs, two of which encoded proteins that had no similarity to other proteins in the database. The proteins encoded by the plasmid ORFs had similarity to proteins for mobilization and transfer, an integrase, a rifampin resistance protein, a cell wall hydrolase, glutathione synthase, and a biotin carboxylase. The similarities were to several gram-positive genera and a few gram-negative genera and archaea. oriT and ssoT- like regions were detected near two mob genes. These results suggest that pBM300 is a mobilizable hybrid plasmid that confers increased metabolic and germination ability on its host. Its replicon also helps define a new plasmid family.