The draft genome of the fast-growing non-timber forest species moso bamboo (Phyllostachys heterocycla)

Zhenhua Peng; Ying Lü; Lubin Li; Qiang Zhao; Qi Feng; Zhimin Gao; Hengyun Lu; Tao Hu; Na Yao; Kunyan Liu; Yàn Li; Danlin Fan; Yunli Guo; Wenjun Li; Yiqi Lu; Qijun Weng; Congcong Zhou; Lei Zhang; Tao Huang; Yan Zhao; Chuanrang Zhu; Xing’e Liu; Xuewen Yang; Tao Wang; Kun Miao; Zhuang Caiyun; Xiaolu Cao; Wenli Tang; Guanshui Liu; Yingli Liu; Jie Chen; Zhenjing Liu; Licai Yuan; Zhenhua Liu; Xuehui Huang; Tingting Lu; Benhua Fei; Zemin Ning; Bin Han; Zehui Jiang

doi:10.1038/ng.2569

The draft genome of the fast-growing non-timber forest species moso bamboo (Phyllostachys heterocycla)

Zhenhua Peng(Chinese Academy of Forestry), Ying Lü(Center for Excellence in Molecular Plant Sciences), Lubin Li(Chinese Academy of Forestry), Qiang Zhao(National Center for Gene Research), Qi Feng(National Center for Gene Research), Zhimin Gao(International Bamboo and Rattan Organization), Hengyun Lu(National Center for Gene Research), Tao Hu(National Center for Gene Research), Na Yao(Research Institute of Forestry), Kunyan Liu(Center for Excellence in Molecular Plant Sciences), Yàn Li(National Center for Gene Research), Danlin Fan(Center for Excellence in Molecular Plant Sciences), Yunli Guo(National Center for Gene Research), Wenjun Li(Shanghai Institutes for Biological Sciences), Yiqi Lu(Chinese Academy of Sciences), Qijun Weng(Center for Excellence in Molecular Plant Sciences), Congcong Zhou(Center for Excellence in Molecular Plant Sciences), Lei Zhang(Center for Excellence in Molecular Plant Sciences), Tao Huang(Center for Excellence in Molecular Plant Sciences), Yan Zhao(National Center for Gene Research), Chuanrang Zhu(Chinese Academy of Sciences), Xing’e Liu(International Bamboo and Rattan Organization), Xuewen Yang(International Bamboo and Rattan Organization), Tao Wang(Chinese Academy of Forestry), Kun Miao(Research Institute of Forestry), Zhuang Caiyun(Research Institute of Forestry), Xiaolu Cao(Research Institute of Forestry), Wenli Tang(International Bamboo and Rattan Organization), Guanshui Liu(International Bamboo and Rattan Organization), Yingli Liu(International Bamboo and Rattan Organization), Jie Chen(Chinese Academy of Forestry), Zhenjing Liu(Chinese Academy of Forestry), Licai Yuan(International Bamboo and Rattan Organization), Zhenhua Liu(Chinese Academy of Forestry), Xuehui Huang(Chinese Academy of Sciences), Tingting Lu(Center for Excellence in Molecular Plant Sciences), Benhua Fei(International Bamboo and Rattan Organization), Zemin Ning(Center for Excellence in Molecular Plant Sciences), Bin Han(Chinese Academy of Sciences), Zehui Jiang(Research Institute of Forestry)

Nature Genetics

February 24, 2013

10.1038/ng.2569

Cited by 613Open Access

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Abstract

Bin Han and colleagues report the draft genome of moso bamboo, an important non-timber forest product. RNA sequencing analysis of bamboo flowering tissues suggests a connection between drought-responsive genes and potential flowering genes. Bamboo represents the only major lineage of grasses that is native to forests and is one of the most important non-timber forest products in the world. However, no species in the Bambusoideae subfamily has been sequenced. Here, we report a high-quality draft genome sequence of moso bamboo (P. heterocycla var. pubescens). The 2.05-Gb assembly covers 95% of the genomic region. Gene prediction modeling identified 31,987 genes, most of which are supported by cDNA and deep RNA sequencing data. Analyses of clustered gene families and gene collinearity show that bamboo underwent whole-genome duplication 7–12 million years ago. Identification of gene families that are key in cell wall biosynthesis suggests that the whole-genome duplication event generated more gene duplicates involved in bamboo shoot development. RNA sequencing analysis of bamboo flowering tissues suggests a potential connection between drought-responsive and flowering genes.

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