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Ongoing Rapid Evolution of a Post-Y Region Revealed by Chromosome-Scale Genome Assembly of a Hexaploid Monoecious Persimmon ( <i>Diospyros kaki</i> )

Ayano Horiuchi, Kanae Masuda, Kenta Shirasawa, Noriyuki Onoue, Naoko Fujita, Koichiro Ushijima, Takashi Akagi

2023Molecular Biology and Evolution15 citationsDOIOpen Access PDF

Abstract

Plants have evolved sex chromosomes independently in many lineages, and loss of separate sexes can also occur. In this study, we assembled a monoecious recently hexaploidized persimmon (Diospyros kaki), in which the Y chromosome has lost the maleness-determining function. Comparative genomic analysis of D. kaki and its dioecious relatives uncovered the evolutionary process by which the nonfunctional Y chromosome (or Ymonoecy) was derived, which involved silencing of the sex-determining gene, OGI, approximately 2 million years ago. Analyses of the entire X and Ymonoecy chromosomes suggested that D. kaki's nonfunctional male-specific region of the Y chromosome (MSY), which we call a post-MSY, has conserved some characteristics of the original functional MSY. Specifically, comparing the functional MSY in Diospyros lotus and the nonfunctional "post-MSY" in D. kaki indicated that both have been rapidly rearranged, mainly via ongoing transposable element bursts, resembling structural changes often detected in Y-linked regions, some of which can enlarge the nonrecombining regions. The recent evolution of the post-MSY (and possibly also MSYs in dioecious Diospyros species) therefore probably reflects these regions' ancestral location in a pericentromeric region, rather than the presence of male-determining genes and/or genes controlling sexually dimorphic traits.

Topics & Concepts

Diospyros kakiBiologyPlant reproductive morphologyGeneticsChromosomeGeneGenomeY chromosomeEvolutionary biologyBotanyPlant Molecular Biology ResearchPlant Reproductive BiologyChromosomal and Genetic Variations