Origin and evolution of the octoploid strawberry genome

Patrick P. Edger; Thomas J. Poorten; Robert VanBuren; Michael A. Hardigan; Marivi Colle; Michael R. McKain; Ronald D. Smith; Scott J. Teresi; Andrew D. L. Nelson; Ching Man Wai; Elizabeth I. Alger; Kevin A. Bird; Alan Yocca; Nathan Pumplin; Shujun Ou; Gil Ben-Zvi; Avital Brodt; Kobi Baruch; Thomas Swale; Lily Shiue; Charlotte B. Acharya; Glenn S. Cole; Jeffrey P. Mower; Kevin L. Childs; Ning Jiang; Eric Lyons; Michael Freeling; Joshua R. Puzey; Steven J. Knapp

doi:10.1038/s41588-019-0356-4

Origin and evolution of the octoploid strawberry genome

Patrick P. Edger(Michigan State University), Thomas J. Poorten(University of California, Davis), Robert VanBuren(Michigan State University), Michael A. Hardigan(University of California, Davis), Marivi Colle(Michigan State University), Michael R. McKain(University of Alabama), Ronald D. Smith(William & Mary), Scott J. Teresi(William & Mary), Andrew D. L. Nelson(University of Arizona), Ching Man Wai(Michigan State University), Elizabeth I. Alger(Michigan State University), Kevin A. Bird(Michigan State University), Alan Yocca(Michigan State University), Nathan Pumplin(University of California, Davis), Shujun Ou(Michigan State University), Gil Ben-Zvi(Israel Institute for Biological Research), Avital Brodt(Israel Institute for Biological Research), Kobi Baruch(Israel Institute for Biological Research), Thomas Swale(Dovetail Genomics (United States)), Lily Shiue(Dovetail Genomics (United States)), Charlotte B. Acharya(University of California, Davis), Glenn S. Cole(University of California, Davis), Jeffrey P. Mower(University of Nebraska–Lincoln), Kevin L. Childs(Michigan State University), Ning Jiang(Michigan State University), Eric Lyons(University of Arizona), Michael Freeling(University of California, Berkeley), Joshua R. Puzey(William & Mary), Steven J. Knapp(University of California, Davis)

Nature Genetics

February 25, 2019

10.1038/s41588-019-0356-4

Cited by 739Open Access

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Abstract

Cultivated strawberry emerged from the hybridization of two wild octoploid species, both descendants from the merger of four diploid progenitor species into a single nucleus more than 1 million years ago. Here we report a near-complete chromosome-scale assembly for cultivated octoploid strawberry (Fragaria × ananassa) and uncovered the origin and evolutionary processes that shaped this complex allopolyploid. We identified the extant relatives of each diploid progenitor species and provide support for the North American origin of octoploid strawberry. We examined the dynamics among the four subgenomes in octoploid strawberry and uncovered the presence of a single dominant subgenome with significantly greater gene content, gene expression abundance, and biased exchanges between homoeologous chromosomes, as compared with the other subgenomes. Pathway analysis showed that certain metabolomic and disease-resistance traits are largely controlled by the dominant subgenome. These findings and the reference genome should serve as a powerful platform for future evolutionary studies and enable molecular breeding in strawberry.

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