Abstract
Mechanisms of X chromosome dosage compensation have been studied in model organisms with distinct sex chromosome ancestry. However, the diversity of mechanisms as a function of sex chromosome evolution is largely unknown. Here, we anchor ourselves to the nematode Caenorhabditis elegans, where dosage compensation is accomplished by an X chromosome-specific condensin that belongs to the family of structural maintenance of chromosomes (SMC) complexes. By combining a phylogenetic analyses of the C. elegans dosage compensation complex with a comparative analysis of its epigenetic signatures, such as X-specific topologically associating domains and enrichment of H4K20me1, we show that the condensin-mediated mechanism evolved recently in the lineage leading to Caenorhabditis following an SMC-4 duplication. Unexpectedly, we found an independent duplication of SMC-4 in Pristionchus pacificus along with X-specific topologically associating domains and H4K20me1 enrichment, which suggests that condensin-mediated dosage compensation evolved more than once in nematodes. Differential expression analysis between sexes in several nematode species indicates that dosage compensation itself precedes the evolution of X-specific condensins. In Rhabditina, X-specific condensins may have evolved in the presence of an existing mechanism linked to H4K20 methylation as Oscheius tipulae X chromosomes are enriched for H4K20me1 without SMC-4 duplication or topologically associating domains. In contrast, Steinernema hermaphroditum lacks H4K20me1 enrichment, SMC-4 duplication, and topologically associating domains. Together, our results indicate that dosage compensation mechanisms continue to evolve in species with shared X chromosome ancestry, and SMC complexes may have been co-opted at least twice in nematodes, suggesting that the process of evolving chromosome-wide gene regulatory mechanisms are constrained.