Abstract
Chrysanthemums are one of the most industrially important cut flowers worldwide. However, their segmental allopolyploidy and self-incompatibility have prevented the application of genetic analysis and modern breeding strategies. We thus developed a model strain, Gojo-0 (Chrysanthemum seticuspe), which is a diploid and self-compatible pure line. Here, we present the 3.05 Gb chromosome-level reference genome sequence, which covered 97% of the C. seticuspe genome. The genome contained more than 80% interspersed repeats, of which retrotransposons accounted for 72%. We identified recent segmental duplication and retrotransposon expansion in C. seticuspe, contributing to arelatively large genome size. Furthermore, we identified a retrotransposon family, SbdRT, which was enriched in gene-dense genome regions and had experienced a very recent transposition burst. We also demonstrated that the chromosome-level genome sequence facilitates positional cloning in C. seticuspe. The genome sequence obtained here can greatly contribute as a reference for chrysanthemum in front-line breeding including genome editing.
Highlights
Chrysanthemums are one of the most industrially important cut flowers worldwide
We demonstrate that the chromosomelevel sequence information supports the value of Gojo-0 as a model strain of the genus Chrysanthemum, and can contribute to the development of new traits that have not been utilized in the breeding of cultivated chrysanthemums, such as self-compatibility
396 million read pairs were obtained from the Hi-C library by HiSeq sequencing, after which scaffolding of the assembled sequences was performed using the HiRise method (Supplementary Figure 2)
Summary
Chrysanthemums are one of the most industrially important cut flowers worldwide. their segmental allopolyploidy and self-incompatibility have prevented the application of genetic analysis and modern breeding strategies. We tried to identify SbdRT family copies with LTRs sharing more than 90% identity with those in SbdRT-nis-ori in the Gojo-0 genome and identified 360 sequences (Supplementary Data 3).
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