Chromosomal‐scale genomes of two Rosa species provide insights into genome evolution and ascorbate accumulation

SUMMARY Rosa roxburghii and Rosa sterilis , two species belonging to the Rosaceae family, are widespread in the southwest of China. These species have gained recognition for their remarkable abundance of ascorbate in their fresh fruits, making them an ideal vitamin C resource. In this study, we generated two high‐quality chromosome‐scale genome assemblies for R. roxburghii and R. sterilis , with genome sizes of 504 and 981.2 Mb, respectively. Notably, we present a haplotype‐resolved, chromosome‐scale assembly for diploid R. sterilis . Our results indicated that R. sterilis originated from the hybridization of R. roxburghii and R. longicuspis . Genome analysis revealed the absence of recent whole‐genome duplications in both species and identified a series of duplicated genes that possibly contributing to the accumulation of flavonoids. We identified two genes in the ascorbate synthesis pathway, GGP and GalLDH , that show signs of positive selection, along with high expression levels of GDP‐ d ‐mannose 3′, 5′‐epimerase ( GME ) and GDP‐ l ‐galactose phosphorylase ( GGP ) during fruit development. Furthermore, through co‐expression network analysis, we identified key hub genes ( MYB5 and bZIP ) that likely regulate genes in the ascorbate synthesis pathway, promoting ascorbate biosynthesis. Additionally, we observed the expansion of terpene synthase genes in these two species and tissue expression patterns, suggesting their involvement in terpenoid biosynthesis. Our research provides valuable insights into genome evolution and the molecular basis of the high concentration of ascorbate in these two Rosa species.