Signatures of Adaptation and Purifying Selection in Highland Populations of <i>Dasiphora fruticosa</i>
Fu‐Sheng Yang, Min Liu, Xing Guo, Chao Xu, Juan Jiang, Weixue Mu, Dongming Fang, Yong‐Chao Xu, Fu‐Min Zhang, Yinghui Wang, Ting Yang, Hongyun Chen, Sunil Kumar Sahu, Ruirui Li, Guanlong Wang, Qiang Wang, Xun Xu, Song Ge, Huan Liu, Ya‐Long Guo
Abstract
High mountains harbor a considerable proportion of biodiversity, but we know little about how diverse plants adapt to the harsh environment. Here we finished a high-quality genome assembly for Dasiphora fruticosa, an ecologically important plant distributed in the Qinghai-Tibetan Plateau and lowland of the Northern Hemisphere, and resequenced 592 natural individuals to address how this horticulture plant adapts to highland. Demographic analysis revealed D. fruticosa underwent a bottleneck after Naynayxungla Glaciation. Selective sweep analysis of two pairs of lowland and highland populations identified 63 shared genes related to cell wall organization or biogenesis, cellular component organization, and dwarfism, suggesting parallel adaptation to highland habitats. Most importantly, we found that stronger purging of estimated genetic load due to inbreeding in highland populations apparently contributed to their adaptation to the highest mountain. Our results revealed how plants could tolerate the extreme plateau, which could provide potential insights for species conservation and crop breeding.