Abstract
BackgroundThe great diversity in plant genome size and chromosome number is partly due to polyploidization (i.e. genome doubling events). The differences in genome size and chromosome number among diploid plant species can be a window into the intriguing phenomenon of past genome doubling that may be obscured through time by the process of diploidization. The genus Hibiscus L. (Malvaceae) has a wide diversity of chromosome numbers and a complex genomic history. Hibiscus is ideal for exploring past genomic events because although two ancient genome duplication events have been identified, more are likely to be found due to its diversity of chromosome numbers. To reappraise the history of whole-genome duplication events in Hibiscus, we tested three alternative scenarios describing different polyploidization events.ResultsUsing target sequence capture, we designed a new probe set for Hibiscus and generated 87 orthologous genes from four diploid species. We detected paralogues in > 54% putative single-copy genes. 34 of these genes were selected for testing three different genome duplication scenarios using gene counting. All species of Hibiscus sampled shared one genome duplication with H. syriacus, and one whole genome duplication occurred along the branch leading to H. syriacus.ConclusionsHere, we corroborated the independent genome doubling previously found in the lineage leading to H. syriacus and a shared genome doubling of this lineage and the remainder of Hibiscus. Additionally, we found a previously undiscovered genome duplication shared by the /Pavonia and /Malvaviscus clades (both nested within Hibiscus) with the occurrences of two copies in what were otherwise single-copy genes. Our results highlight the complexity of genomic diversity in some plant groups, which makes orthology assessment and accurate phylogenomic inference difficult.
Highlights
The great diversity in plant genome size and chromosome number is partly due to polyploidization
We explore if one of the Whole-genome duplication (WGD) events in H. syriacus is shared by all species of Hibiscus, and if the second duplication is restricted to H. syriacus (S2; Fig. 1b)
Occurrence of paralogous genes Despite targeting low-copy nuclear genes, we found that 54% of the genes contained more than the two variants found in one of the diploid H. cannabinus accessions (i.e. H. cannabinus1)
Summary
The great diversity in plant genome size and chromosome number is partly due to polyploidization (i.e. genome doubling events). The differences in genome size and chromosome number among diploid plant species can be a window into the intriguing phenomenon of past genome doubling that may be obscured through time by the process of diploidization. Hibiscus is ideal for exploring past genomic events because two ancient genome duplication events have been identified, more are likely to be found due to its diversity of chromosome numbers. Apart from diploidization, fractionation can result in losses of entire chromosomes and copies of gene pairs duplicated through polyploidy (homoeologs). These can occur randomly with respect to either parental genome, but, in some cases, losses predominantly occur in one of the parental genomes [51, 56, 61, 75]. Repeated cycles of polyploid formation followed by genome rearrangement [56, 69] and fractionation hinder the recognition of ancient WGD [79]
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