Polyploidization has provided much genetic variation for plant adaptive evolution, but the mechanisms by which the molecular evolution of polyploid genomes establishes genetic architecture underlying species differentiation are unclear. Brassica is an ideal model to increase knowledge of polyploid evolution. Here we describe a draft genome sequence of Brassica oleracea, comparing it with that of its sister species B. rapa to reveal numerous chromosome rearrangements and asymmetrical gene loss in duplicated genomic blocks, asymmetrical amplification of transposable elements, differential gene co-retention for specific pathways and variation in gene expression, including alternative splicing, among a large number of paralogous and orthologous genes. Genes related to the production of anticancer phytochemicals and morphological variations illustrate consequences of genome duplication and gene divergence, imparting biochemical and morphological variation to B. oleracea. This study provides insights into Brassica genome evolution and will underpin research into the many important crops in this genus.
Journal article
The Brassica oleracea genome reveals theasymmetrical evolution of polyploid genomes
Nature Communications, Vol.5(3930)
2014
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Source: InCites
Abstract
Details
- Title
- The Brassica oleracea genome reveals theasymmetrical evolution of polyploid genomes
- Creators
- Shengyi Liu - Chinese Academy of Agricultural SciencesYumei Liu - Chinese Academy of Agricultural SciencesXinhua Yang - Beijing Genome Institute-ShenzhenChaobo Tong - Chinese Academy of Agricultural SciencesDavid Edwards - University of QueenslandIsobel AP Parkin - Agriculture and Agri-Food CanadaMeixia Zhao - Chinese Academy of Agricultural SciencesJianxin Ma - Purdue UniversityJingyin Yu - Chinese Academy of Agricultural SciencesShunmou Huang - Chinese Academy of Agricultural SciencesXiyin Wang - University of GeorgiaJunyi Wang - Beijing Genome Institute-ShenzhenKun Lu - Southwest UniversityZhiyuan Fang - Chinese Academy of Agricultural SciencesIan Bancroft - University of YorkTae-Jin Yang - Seoul National UniversityQiong Hu - Chinese Academy of Agricultural SciencesXinfa Wang - Chinese Academy of Agricultural SciencesZhen Yue - Beijing Genome Institute-ShenzhenHaojie Li - Sichuan Academy of Agricultural SciencesLinfeng Yang - Beijing Genome Institute-ShenzhenJian Wu - Chinese Academy of Agricultural SciencesQing Zhou - Beijing Genome Institute-ShenzhenWanxin Wang - Chinese Academy of Agricultural SciencesGraham J King - Southern Cross UniversityJ Chris Pires - University of MissouriChangxin Lu - Beijing Genome Institute-ShenzhenZhangyan Wu - Beijing Genome Institute-ShenzhenPerumal Sampath - Seoul National UniversityZhuo Wang - Beijing Genome Institute-ShenzhenHui Guo - University of GeorgiaShengkai Pan - Beijing Genome Institute-ShenzhenLimei Yang - Chinese Academy of Agricultural SciencesJiumeng Min - Beijing Genome Institute-ShenzhenDong Zhang - University of GeorgiaDianchuan Jin - Hebei United UniversityWanshun Li - Beijing Genome Institute-ShenzhenHarry Belcram - Universite´ Evry Val d’EssonneJinxing Tu - Huazhong Agricultural UniversityMei Guan - Hunan Agricultural UniversityCunkou Qi - Jiangsu Academy of Agricultural SciencesDezhi Du - Qinghai Academy of Agriculture and Forestry SciencesJiana Li - Southwest UniversityLiangcai Jiang - Sichuan Academy of Agricultural SciencesJacqueline Batley - University of QueenslandAndrew G Sharpe - National Research Council CanadaBeom-Seok Park - Agricultural Genome Center, National Academy of Agricultural Science, KoreaPradeep Ruperao - University of QueenslandFeng Cheng - Chinese Academy of Agricultural SciencesNomar Espinosa Waminal - Seoul National UniversityYin Huang - Beijing Genome Institute-ShenzhenCaihua Dong - Chinese Academy of Agricultural SciencesLi Wang - Hebei United UniversityJinping Li - University of GeorgiaZhiyong Hu - Chinese Academy of Agricultural SciencesMu Zhuang - Chinese Academy of Agricultural SciencesYi Huang - Chinese Academy of Agricultural SciencesJunyan Huang - Chinese Academy of Agricultural SciencesJiaqin Shi - Chinese Academy of Agricultural SciencesDesheng Mei - Chinese Academy of Agricultural SciencesJing Liu - Chinese Academy of Agricultural SciencesTae-Ho Lee - University of GeorgiaJinpeng Wang - Hebei United UniversityHuizhe Jin - University of GeorgiaZaiyun Li - Huazhong Agricultural UniversityXun Li - Hunan Agricultural UniversityJiefu Zhang - Jiangsu Academy of Agricultural SciencesLu Xiao - Qinghai Academy of Agriculture and Forestry SciencesYongming Zhou - Huazhong Agricultural UniversityZhongsong Liu - Hunan Agricultural UniversityXuequn Liu - South-Central University for NationalityRui Qin - South-Central University for NationalityXu Tang - University of GeorgiaWenbin Liu - Beijing Genome Institute-ShenzhenYupeng Wang - University of GeorgiaYangyong Zhang - Chinese Academy of Agricultural SciencesJonghoon Lee - Seoul National UniversityHyun Hee Kim - Sahmyook UniversityFrance Denoeud - Institut de Ge´nomique, Evry, FranceXun Xu - Beijing Genome Institute-ShenzhenXinming Liang - Beijing Genome Institute-ShenzhenWei Hua - Chinese Academy of Agricultural SciencesXiaowu Wang - Chinese Academy of Agricultural SciencesJun Wang - Beijing Genome Institute-ShenzhenBoulos Chalhoub - Universite´ Evry Val d’EssonneAndrew H Paterson - University of Georgia
- Publication Details
- Nature Communications, Vol.5(3930)
- Identifiers
- 1764; 991012820644002368
- Academic Unit
- Faculty of Science and Engineering; Southern Cross Plant Science; Science
- Resource Type
- Journal article