Multi-scale architecture of archaeal chromosomes.

Chromosome conformation capture (3C) technologies have identified topologically associating domains (TADs) and larger A/B compartments as two salient structural features of eukaryotic chromosomes. These structures are sculpted by the combined actions of transcription and structural maintenance of chromosomes (SMC) superfamily proteins. Bacterial chromosomes fold into TAD-like chromosomal interaction domains (CIDs) but do not display A/B compartment-type organization. We reveal that chromosomes of Sulfolobus archaea are organized into CID-like topological domains in addition to previously described larger A/B compartment-type structures. We uncover local rules governing the identity of the topological domains and their boundaries. We also identify long-range loop structures and provide evidence of a hub-like structure that colocalizes genes involved in ribosome biogenesis. In addition to providing high-resolution descriptions of archaeal chromosome architectures, our data provide evidence of multiple modes of organization in prokaryotic chromosomes and yield insights into the evolution of eukaryotic chromosome conformation.
Competing Interests: Declaration of interests The authors declare no competing interests.
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