Genome sequence of the progenitor of wheat A subgenome Triticum urartu

Hong‐Qing Ling; Bin Ma; Xiaoli Shi; Hui Liu; Lingli Dong; Hua Sun; Yinghao Cao; Qiang Gao; Shusong Zheng; Ye Li; Ying Yu; Huilong Du; Ming Qi; Yan Li; Hongwei Lu; Hua Yu; Yan Cui; Ning Wang; Chunlin Chen; Huilan Wu; Yan Zhao; Juncheng Zhang; Yiwen Li; Wenjuan Zhou; Bairu Zhang; Weijuan Hu; Michiel J. T. van Eijk; Jifeng Tang; Hanneke Witsenboer; Shancen Zhao; Zhensheng Li; Aimin Zhang; Daowen Wang; Chengzhi Liang

doi:10.1038/s41586-018-0108-0

Genome sequence of the progenitor of wheat A subgenome Triticum urartu

Hong‐Qing Ling(University of Chinese Academy of Sciences), Bin Ma(Institute of Genetics and Developmental Biology), Xiaoli Shi(Chinese Academy of Sciences), Hui Liu(State Key Laboratory of Plant Genomics), Lingli Dong(Institute of Genetics and Developmental Biology), Hua Sun(Institute of Genetics and Developmental Biology), Yinghao Cao(Chinese Academy of Sciences), Qiang Gao(Chinese Academy of Sciences), Shusong Zheng(Institute of Genetics and Developmental Biology), Ye Li(Chinese Academy of Sciences), Ying Yu(Chinese Academy of Sciences), Huilong Du(Institute of Genetics and Developmental Biology), Ming Qi(Chinese Academy of Sciences), Yan Li(State Key Laboratory of Plant Genomics), Hongwei Lu(University of Chinese Academy of Sciences), Hua Yu(Chinese Academy of Sciences), Yan Cui(Chinese Academy of Sciences), Ning Wang(Chinese Academy of Sciences), Chunlin Chen(Chinese Academy of Sciences), Huilan Wu(Chinese Academy of Sciences), Yan Zhao(Chinese Academy of Sciences), Juncheng Zhang(Institute of Genetics and Developmental Biology), Yiwen Li(Institute of Genetics and Developmental Biology), Wenjuan Zhou(Institute of Genetics and Developmental Biology), Bairu Zhang(Institute of Genetics and Developmental Biology), Weijuan Hu(Institute of Genetics and Developmental Biology), Michiel J. T. van Eijk(KeyGene (Netherlands)), Jifeng Tang(KeyGene (Netherlands)), Hanneke Witsenboer(KeyGene (Netherlands)), Shancen Zhao(BGI Group (China)), Zhensheng Li(Institute of Genetics and Developmental Biology), Aimin Zhang(Institute of Genetics and Developmental Biology), Daowen Wang(Institute of Genetics and Developmental Biology), Chengzhi Liang(State Key Laboratory of Plant Genomics)

Nature

May 1, 2018

10.1038/s41586-018-0108-0

Cited by 514Open Access

Full Text

Abstract

Triticum urartu (diploid, AA) is the progenitor of the A subgenome of tetraploid (Triticum turgidum, AABB) and hexaploid (Triticum aestivum, AABBDD) wheat1,2. Genomic studies of T. urartu have been useful for investigating the structure, function and evolution of polyploid wheat genomes. Here we report the generation of a high-quality genome sequence of T. urartu by combining bacterial artificial chromosome (BAC)-by-BAC sequencing, single molecule real-time whole-genome shotgun sequencing3, linked reads and optical mapping4,5. We assembled seven chromosome-scale pseudomolecules and identified protein-coding genes, and we suggest a model for the evolution of T. urartu chromosomes. Comparative analyses with genomes of other grasses showed gene loss and amplification in the numbers of transposable elements in the T. urartu genome. Population genomics analysis of 147 T. urartu accessions from across the Fertile Crescent showed clustering of three groups, with differences in altitude and biostress, such as powdery mildew disease. The T. urartu genome assembly provides a valuable resource for studying genetic variation in wheat and related grasses, and promises to facilitate the discovery of genes that could be useful for wheat improvement. The genome sequence of Triticum urartu, the progenitor of the A subgenome of hexaploid wheat, provides insight into genome duplication during grass evolution.

Related Papers

No related papers found

Powered by citation graph analysis