The histone-like nucleoid-structuring protein encoded by the plasmid pMBL6842 regulates both plasmid stability and host physiology of Pseudoalteromonas rubra SCSIO 6842

Abstract

Plasmids orchestrate bacterial adaptation across diverse environments and facilitate lateral gene transfer within bacterial communities. Their presence can perturb host metabolism, creating a competitive advantage for plasmid-free cells. Plasmid stability hinges on efficient replication and partition mechanisms. While plasmids commonly encode histone-like nucleoid-structuring (H-NS) family proteins, the precise influence of plasmid-encoded H-NS proteins on stability remains elusive. In this study, we examined the conjugative plasmid pMBL6842, harboring the hns gene, and observed its positive regulation of parAB transcription, critical for plasmid segregation. Deletion of hns led to rapid plasmid loss, which was remedied by hns complementation. Further investigations unveiled adverse effects of hns overexpression on the bacterial host. Transcriptome analysis revealed hns's role in regulating numerous bacterial genes, impacting both host growth and swimming motility in the presence of the hns gene. Therefore, our study unveils the multifaceted roles of H-NS in both plasmid stability and host physiology, underscoring its biological significance and paving the way for future inquiries into the involvement of H-NS in horizontal gene transfer events.