Integration of SCP1, a giant linear plasmid, into the Streptomyces coelicolor chromosome

Abstract

SCP1, coding for the methylenomycin biosynthetic genes in Streptomyces coelicolor, is a giant linear plasmid of 350 kb. Extensive physical characterization revealed that SCP1 has unusually long terminal inverted repeats (TIR) of about 80 kb on both ends and an insertion sequence, IS466, at the end of the right TIR (TIR-R), and the 5′-ends are attached to a terminal protein. In the NF strain S. coelicolor 2612, SCP1 is integrated into the chromosome at the 9-o'clock position. Analysis of the two junctions between the SCP1 DNA and the chromosomal DNA revealed that the left junction had an almost intact left terminus of SCP1, while the right junction was composed of IS466, completely deleting TIR-R. Based on these results, we presented a possible formation mechanism of the NF strain, which is characterized by integration of SCP1 into the chromosome via an interaction of the target site and the combined ends of the racket-frame structure of SCP1 followed by deletion of TIR-R. We also hypothesized that this type of integration of a giant linear plasmid might be involved in the origin and distribution of the chromosomal antibiotic biosynthetic gene clusters in microorganisms.