A Multiprotein DNA Translocation Complex Directs Intramycelial Plasmid Spreading during Streptomyces Conjugation.

Mycelial soil bacteria of the genus Streptomyces evolved specific resistance genes as part of the biosynthetic gene clusters to protect themselves from their own antibiotic, making streptomycetes a huge natural reservoir of antibiotic resistance genes for dissemination by horizontal gene transfer. Streptomyces conjugation is a unique process, visible on agar plates with the mere eye by the formation of circular inhibition zones, called pocks. To understand the Streptomyces conjugative DNA transfer machinery, which does not involve a type IV secretion system (T4SS), we made a thorough investigation of almost all genes/proteins of the model plasmid pSVH1. We identified all genes involved in transfer and intramycelial plasmid spreading and showed that the FtsK-like DNA translocase TraB interacts with multiple plasmid-encoded proteins. Our results suggest the existence of a macromolecular DNA translocation complex that directs intramycelial plasmid spreading.