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Title： The Welwitschia genome reveals a unique biology underpinning extreme longevity in deserts
Authors：
Corresponding Author： Wan, Tao; Liu, Zhiming; Leitch, Ilia J.; Xin, Haiping; Maggs-Kolling, Gillian; Gong, Yanbing; Li, Zhen; Marais, Eugene; Liao, Yiying; Dai, Can; Liu, Fan; Wu, Qijia; Song, Chi; Zhou, Yadong; Huang, Weichang; Jiang, Kai; Wang, Qi; Yang, Yong; Zhong, Zhixiang; Yang, Ming; Yan, Xue; Hu, Guangwan; Hou, Chen; Su, Yingjuan; Feng, Shixiu; Yang, Ji; Yan, Jijun; Chu, Jinfang; Chen, Fan; Ran, Jinhua; Wang, Xiaoquan*; Van de Peer, Yves*; Leitch, Andrew R*.; Wang, Qingfeng*.
Pubyear： 2021
Title of Journal： Nature Communications
Paper Code：
Volume： 12
Number： 1
Page： 4247
Others：
Classification：
Source：

The gymnosperm Welwitschia mirabilis belongs to the ancient, enigmatic gnetophyte lineage. It is a unique desert plant with extreme longevity and two ever-elongating leaves. We present a chromosome-level assembly of its genome (6.8Gb/1C) together with methylome and transcriptome data to explore its astonishing biology. We also present a refined, high-quality assembly of Gnetum montanum to enhance our understanding of gnetophyte genome evolution. The Welwitschia genome has been shaped by a lineage-specific ancient, whole genome duplication (similar to 86 million years ago) and more recently (1-2 million years) by bursts of retrotransposon activity. High levels of cytosine methylation (particularly at CHH motifs) are associated with retrotransposons, whilst long-term deamination has resulted in an exceptionally GC-poor genome. Changes in copy number and/or expression of gene families and transcription factors (e.g. R2R3MYB, SAUR) controlling cell growth, differentiation and metabolism underpin the plant's longevity and tolerance to temperature, nutrient and water stress