ABSTRACT
Depending on the species, bacteria organize their chromosomes with either spatially separated or closely juxtaposed replichores. However, in contrast to eukaryotes, significant changes in bacterial chromosome conformation during the cell cycle have not been demonstrated to date. Streptomyces are unique among bacteria due to their linear chromosomes and complex life cycle. These bacteria develop multigenomic hyphae that differentiate into chains of unigenomic exospores. Only during sporulation-associated cell division, chromosomes are segregated and compacted. In this study, we show that at entry to sporulation, arms of S. venezuelae chromosomes are spatially separated, but they are closely aligned within the core region during sporogenic cell division. Arm juxtaposition is imposed by the segregation protein ParB and condensin SMC. Moreover, we disclose that the chromosomal terminal regions are organized into domains by the Streptomyces-specific protein - HupS. Thus, we demonstrate chromosomal rearrangement from open to close conformation during Streptomyces life cycle.
Competing Interest Statement
The authors have declared no competing interest.