BMC Genomics (Apr 2012)

Whole genome comparisons of <it>Fragaria</it>, <it>Prunus </it>and <it>Malus </it>reveal different modes of evolution between Rosaceous subfamilies

  • Jung Sook,
  • Cestaro Alessandro,
  • Troggio Michela,
  • Main Dorrie,
  • Zheng Ping,
  • Cho Ilhyung,
  • Folta Kevin M,
  • Sosinski Bryon,
  • Abbott Albert,
  • Celton Jean-Marc,
  • Arús Pere,
  • Shulaev Vladimir,
  • Verde Ignazio,
  • Morgante Michele,
  • Rokhsar Daniel,
  • Velasco Riccardo,
  • Sargent Daniel

DOI
https://doi.org/10.1186/1471-2164-13-129
Journal volume & issue
Vol. 13, no. 1
p. 129

Abstract

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Abstract Background Rosaceae include numerous economically important and morphologically diverse species. Comparative mapping between the member species in Rosaceae have indicated some level of synteny. Recently the whole genome of three crop species, peach, apple and strawberry, which belong to different genera of the Rosaceae family, have been sequenced, allowing in-depth comparison of these genomes. Results Our analysis using the whole genome sequences of peach, apple and strawberry identified 1399 orthologous regions between the three genomes, with a mean length of around 100 kb. Each peach chromosome showed major orthology mostly to one strawberry chromosome, but to more than two apple chromosomes, suggesting that the apple genome went through more chromosomal fissions in addition to the whole genome duplication after the divergence of the three genera. However, the distribution of contiguous ancestral regions, identified using the multiple genome rearrangements and ancestors (MGRA) algorithm, suggested that the Fragaria genome went through a greater number of small scale rearrangements compared to the other genomes since they diverged from a common ancestor. Using the contiguous ancestral regions, we reconstructed a hypothetical ancestral genome for the Rosaceae 7 composed of nine chromosomes and propose the evolutionary steps from the ancestral genome to the extant Fragaria, Prunus and Malus genomes. Conclusion Our analysis shows that different modes of evolution may have played major roles in different subfamilies of Rosaceae. The hypothetical ancestral genome of Rosaceae and the evolutionary steps that lead to three different lineages of Rosaceae will facilitate our understanding of plant genome evolution as well as have a practical impact on knowledge transfer among member species of Rosaceae.

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