Chromosome‐level genome assembly of a rare karst‐growing Rhododendron species provides insights into its evolution and environmental adaptation

喀斯特 适应(眼睛) 生物 染色体 基因组 进化生物学 植物 遗传学 基因 古生物学 神经科学
作者
Sulin Wen,Xiaowei Cai,Kun Yang,Yi Hong,Fuhua Fan,Qian Wang,Bingxue Zhang,Qiandong Hou,Yuxin Leng,Guang Qiao,Xiaopeng Wen,Xiaohui Shen
出处
期刊:Journal of Systematics and Evolution [Wiley]
标识
DOI:10.1111/jse.13130
摘要

Abstract Rhododendron is a significant plant genus, with over 600 identified species in China. The subgenus Hymenanthes holds the largest number of Rhododendron germplasms and showcases strong environmental adaptability. However, there remains a lack of understanding regarding Rhododendron 's evolution and environmental adaptations. Rhododendron bailiense Y.P.Ma, C.Q.Zhang & D.F.Chamb., an exceedingly rare species, thrives in the alkaline karst landforms of Guizhou, southwest China, different from the typical growing environment of other Rhododendron species. In this study, we present a chromosome‐level genome assembly of R. bailiense , revealing a genome size of 923.3 Mb, a contig N50 of 24.5 Mb, and a total of 47 567 predicted genes. An evolutionary analysis indicated that R. bailiense diverged from its ancestors prior to the other subgenus Hymenanthes rhododendrons, with the expanded and contracted genes being notably enriched in “stress response” and “growth,” respectively. Rhododendron bailiense is predominantly found on limestone soil in the mountains of Guizhou, with only two wild populations known. The genome of R. bailiense contained a high copy number of ankyrin repeat (ANK) and Ca 2+ ‐ATPase (CAP) genes, primarily involved in Ca 2+ transport, shedding light on how R. bailiense copes with karst high‐calcium stress. In contrast, the structures of the ANKs displayed unique characteristics, while the CAPs showed conservatism. The R. bailiense genome provides new insights into the adaptation and evolutionary history of Rhododendron plants in karst environments, potentially offering valuable information for adaptive breeding and ecological enhancement in such challenging settings.
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