摘要:SummaryCucumis melodisplays a large diversity of horticultural groups with cantaloupe melon the most cultivated type. Using a combination of single-molecule sequencing, 10X Genomics link-reads, high-density optical and genetic maps, and chromosome conformation capture (Hi-C), we assembled a chromosome scaleC. melovar.cantalupensisCharentais mono genome. Integration of RNA-seq, MeDip-seq, ChIP-seq, and Hi-C data revealed a widespread compartmentalization of the melon genome, segregating constitutive heterochromatin and euchromatin. Genome-wide comparative and evolutionary analysis between melon botanical groups identified Charentais mono genome increasingly more divergent from Harukei-3 (reticulatus), Payzawat (inodorus), and HS (ssp.agrestis) genomes. To assess the paleohistory of theCucurbitaceae, we reconstructed the ancestralCucurbitaceaekaryotype and compared it to sequenced cucurbit genomes. In contrast to other species that experienced massive chromosome shuffling, melon has retained the ancestral genome structure. We provide comprehensive genomic resources and new insights in the diversity of melon horticultural groups and evolution of cucurbits.Graphical abstractDisplay OmittedHighlights•We provide a chromosome scaleC. melovar.cantalupensisCharentais mono genome•Epigenomic analysis revealed a widespread compartmentalization of the melon genome•We reconstructed the ancestralCucurbitaceaekaryotype•Melon has retained the ancestralCucurbitaceaegenome structureGenomics; Omics; Plant biology; Plant evolution
