The willow genome and divergent evolution from poplar after the common genome duplication

Xiaogang Dai; Quanjun Hu; Qingle Cai; Kai Feng; Ning Ye; Gerald A. Tuskan; Richard I. Milne; Yingnan Chen; Zhibing Wan; Zefu Wang; Wenchun Luo; Kun Wang; Dongshi Wan; Mingxiu Wang; Jun Wang; Jianquan Liu; Tongming Yin

doi:10.1038/cr.2014.83

The willow genome and divergent evolution from poplar after the common genome duplication

Xiaogang Dai(Nanjing Forestry University), Quanjun Hu(Lanzhou University), Qingle Cai(BGI Group (China)), Kai Feng(Nanjing Forestry University), Ning Ye(Nanjing Forestry University), Gerald A. Tuskan(Oak Ridge National Laboratory), Richard I. Milne(University of Edinburgh), Yingnan Chen(Nanjing Forestry University), Zhibing Wan(Nanjing Forestry University), Zefu Wang(Lanzhou University), Wenchun Luo(Lanzhou University), Kun Wang(Lanzhou University), Dongshi Wan(Lanzhou University), Mingxiu Wang(Nanjing Forestry University), Jun Wang(BGI Group (China)), Jianquan Liu(Lanzhou University), Tongming Yin(Nanjing Forestry University)

Cell Research

July 1, 2014

10.1038/cr.2014.83

Cited by 204Open Access

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Abstract

Willows (Salix) and poplars (Populus) are known worldwide as woody species with diverse uses. Although these two genera diverged from each other around the early Eocene, they share numerous traits, including the same chromosome number of 2n = 38 and the common ‘Salicoid’ genome duplication with a high macrosynteny. However, most willow species flower early in their lives with short, small and sometimes indistinct stems, and thus differ from poplars in their life histories and habits. In addition, multiple inter- and intrachromosomal rearrangements have been detected involving chromosomal regions present in both lineages, suggestive of the likely genomic divergence after the common genome duplication.

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