Abstract
Ancient whole-genome duplications (WGDs) characterize many large angiosperm lineages, including angiosperms themselves. Prominently, the core eudicot lineage accommodates 70% of all angiosperms and shares ancestral hexaploidy, termed gamma. Gamma arose via two WGDs that occurred early in eudicot history; however, the relative timing of these is unclear, largely due to the lack of high-quality genomes among early-diverging eudicots. Here, we provide complete genomes for Buxus sinica (Buxales) and Tetracentron sinense (Trochodendrales), representing the lineages most closely related to core eudicots. We show that Buxus and Tetracentron are both characterized by independent WGDs, resolve relationships among early-diverging eudicots and their respective genomes, and use the RACCROCHE pipeline to reconstruct ancestral genome structure at three key phylogenetic nodes of eudicot diversification. Our reconstructions indicate genome structure remained relatively stable during early eudicot diversification, and reject hypotheses of gamma arising via inter-lineage hybridization between ancestral eudicot lineages, involving, instead, only stem lineage core eudicot ancestors.
Highlights
Ancient whole-genome duplications (WGDs) characterize many large angiosperm lineages, including angiosperms themselves
Whole-genome duplication (WGD) events have been frequent in angiosperms, and all extant species are ancient polyploids descended from a common ancestor that experienced at least one WGD4,5
Hypotheses on the topic mostly envision a two-step process, in which the product of an initial WGD fused with a third genome in a second polyploidization, possibly via a wide cross after an extended period of random fractionation in the tetraploid intermediate[21]
Summary
Ancient whole-genome duplications (WGDs) characterize many large angiosperm lineages, including angiosperms themselves. We here provide genome assemblies for Buxus sinica (Buxales) and Tetracentron sinense (Trochodendrales), which represent, either individually or collectively, the sister lineage of core eudicots[15].
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