The fate of sex chromosomes during the evolution of monoicy from dioicy in liverworts

Liverworts comprise one of six primary land plant lineages, with the predicted origin of extant liverwort diversity dating to the Silurian. The ancestral liverwort has been inferred to have been dioicous (unisexual) with chromosomal sex determination in which the U chromosome of females and the V chromosome of males were dimorphic with an extensive non-recombining region. In liverworts, sex is determined by a U chromosomal “feminizer” gene that promotes female development, and in its absence, male development ensues. Monoicy (bisexuality) has independently evolved multiple times within liverworts. Here, we explore the evolution of monoicy, focusing on the monoicous species Ricciocarpos natans, and propose that the evolution of monoicy in R. natans involved the appearance of an aneuploid spore that possessed both U and V chromosomes. Chromosomal rearrangements involving the U chromosome resulted in distribution of essential U chromosome genes, including the feminizer, to several autosomal locations. By contrast, we infer that the ancestral V chromosome was inherited largely intact, probably because it carries numerous dispersed “motility” genes distributed across the chromosome. The genetic networks for sex differentiation in R. natans appear largely unchanged except that the feminizer is developmentally regulated, allowing for temporally separated differentiation of female and male reproductive organs on a single plant. A survey of other monoicous liverworts suggests that similar genomic rearrangements may have occurred repeatedly in lineages transitioning to monoicy from dioicy. These data provide a foundation for understanding how genetic networks controlling sex determination can be subtly rewired to produce profound changes in sexual systems.