The genome of broomcorn millet

Changsong Zou; Leiting Li; Daisuke Miki; Delin Li; Qiming Tang; Lihong Xiao; Santosh G. Rajput; Ping Deng; Peng Li; Wei Jia; Ru Huang; Meiling Zhang; Yidan Sun; Jiamin Hu; Xing Fu; Patrick S. Schnable; Yuxiao Chang; Li Feng; Hui Zhang; Baili Feng; Xin‐Guang Zhu; Renyi Liu; James C. Schnable; Jian‐Kang Zhu; Heng Zhang

doi:10.1038/s41467-019-08409-5

The genome of broomcorn millet

Changsong Zou(Henan University), Leiting Li(Chinese Academy of Sciences), Daisuke Miki(Chinese Academy of Sciences), Delin Li(China Agricultural University), Qiming Tang(Chinese Academy of Sciences), Lihong Xiao(Chinese Academy of Sciences), Santosh G. Rajput, Ping Deng(Chinese Academy of Sciences), Peng Li(Chinese Academy of Sciences), Wei Jia(Chinese Academy of Sciences), Ru Huang(Chinese Academy of Sciences), Meiling Zhang(Chinese Academy of Sciences), Yidan Sun(Chinese Academy of Sciences), Jiamin Hu(Chinese Academy of Sciences), Xing Fu(Chinese Academy of Sciences), Patrick S. Schnable(Iowa State University), Yuxiao Chang(Agricultural Genomics Institute at Shenzhen), Li Feng(Chinese Academy of Sciences), Hui Zhang(Shandong Normal University), Baili Feng(Northwest A&F University), Xin‐Guang Zhu(Chinese Academy of Sciences), Renyi Liu(Chinese Academy of Sciences), James C. Schnable(University of Nebraska–Lincoln), Jian‐Kang Zhu(Purdue University West Lafayette), Heng Zhang(Chinese Academy of Sciences)

Nature Communications

January 25, 2019

10.1038/s41467-019-08409-5

Cited by 263Open Access

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Abstract

Abstract Broomcorn millet ( Panicum miliaceum L.) is the most water-efficient cereal and one of the earliest domesticated plants. Here we report its high-quality, chromosome-scale genome assembly using a combination of short-read sequencing, single-molecule real-time sequencing, Hi-C, and a high-density genetic map. Phylogenetic analyses reveal two sets of homologous chromosomes that may have merged ~5.6 million years ago, both of which exhibit strong synteny with other grass species. Broomcorn millet contains 55,930 protein-coding genes and 339 microRNA genes. We find Paniceae-specific expansion in several subfamilies of the BTB (broad complex/tramtrack/bric-a-brac) subunit of ubiquitin E3 ligases, suggesting enhanced regulation of protein dynamics may have contributed to the evolution of broomcorn millet. In addition, we identify the coexistence of all three C 4 subtypes of carbon fixation candidate genes. The genome sequence is a valuable resource for breeders and will provide the foundation for studying the exceptional stress tolerance as well as C 4 biology.

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