| Literature DB >> 30385647 |
Jinpeng Wang1,2, Jiaqing Yuan1,2, Jigao Yu1,2, Fanbo Meng1,2, Pengchuan Sun1, Yuxian Li1,2, Nanshan Yang1,2, Zhenyi Wang1,2, Yuxin Pan1,2, Weina Ge1,2, Li Wang1,2, Jing Li1,2, Chao Liu1,2, Yuhao Zhao1,2, Sainan Luo1, Dongcen Ge1, Xiaobo Cui1, Guangdong Feng2, Ziwei Wang2, Lei Ji2, Jun Qin3, Xiuqing Li4, Xiyin Wang5,2, Zhiyan Xi2.
Abstract
The durian (Durio zibethinus) genome has recently become available, and analysis of this genome reveals two paleopolyploidization events previously inferred as shared with cotton (Gossypium spp.). Here, we reanalyzed the durian genome in comparison with other well-characterized genomes. We found that durian and cotton were actually affected by different polyploidization events: hexaploidization in durian ∼19-21 million years ago (mya) and decaploidization in cotton ∼13-14 mya. Previous interpretations of shared polyploidization events may have resulted from the elevated evolutionary rates in cotton genes due to the decaploidization and insufficient consideration of the complexity of plant genomes. The decaploidization elevated evolutionary rates of cotton genes by ∼64% compared to durian and explained a previous ∼4-fold over dating of the event. In contrast, the hexaploidization in durian did not prominently elevate gene evolutionary rates, likely due to its long generation time. Moreover, divergent evolutionary rates probably explain 98.4% of reconstructed phylogenetic trees of homologous genes being incongruent with expected topology. The findings provide further insight into the roles played by polypoidization in the evolution of genomes and genes, and they suggest revisiting existing reconstructed phylogenetic trees.Entities:
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Year: 2018 PMID: 30385647 PMCID: PMC6324235 DOI: 10.1104/pp.18.00921
Source DB: PubMed Journal: Plant Physiol ISSN: 0032-0889 Impact factor: 8.340