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Chromosome‐level genome assembly and population genetic analysis of a critically endangered rhododendron provide insights into its conservation

生物 极度濒危 基因组 人口 杂合子丢失 濒危物种 进化生物学 遗传多样性 有效人口规模 遗传学 基因组大小 遗传变异 基因 生态学 等位基因 人口学 社会学 栖息地
作者
Hong Ma,Yongbo Liu,Detuan Liu,Weibang Sun,Xiongfang Liu,Youming Wan,Xiujiao Zhang,Rengang Zhang,Quanzheng Yun,Jihua Wang,Zhenghong Li,Yongpeng Ma
出处
期刊:Plant Journal [Wiley]
卷期号:107 (5): 1533-1545 被引量:56
标识
DOI:10.1111/tpj.15399
摘要

Rhododendrons are woody plants, famous throughout the world as having high horticultural value. However, many wild species are currently threatened with extinction. Here, we report for the first time a high-quality, chromosome-level genome of Rhododendron griersonianum, which has contributed to approximately 10% of all horticultural rhododendron varieties but which in its wild form has been evaluated as critically endangered. The final genome assembly, which has a contig N50 size of approximately 34 M and a total length of 677 M, is the highest-quality genome sequenced within the genus to date, in part due to its low heterozygosity (0.18%). Identified repeats constitute approximately 57% of the genome, and 38 280 protein-coding genes were predicted with high support. We further resequenced 31 individuals of R. griersonianum as well as 30 individuals of its widespread relative R. delavayi, and performed additional conservation genomic analysis. The results showed that R. griersonianum had lower genetic diversity (θ = 2.58e-3; π = 1.94e-3) when compared not only to R. delavayi (θ = 11.61e-3, π = 12.97e-3), but also to most other woody plants. Furthermore, three severe genetic bottlenecks were detected using both the Stairway plot and fastsimcoal2 analysis, which are thought to have occurred in the late Middle Pleistocene and the Last Glacial Maximum (LGM) period. After these bottlenecks, R. griersonianum recovered and maintained a constant effective population size (>25 000) until now. Intriguingly, R. griersonianum has accumulated significantly more deleterious mutations in the homozygous state than R. delavayi, and several deleterious mutations (e.g., in genes involved in the response to heat stress) are likely to have harmed the adaptation of this plant to its surroundings. This high-quality, chromosome-level genome and the population genomic analysis of the critically endangered R. griersonianum will provide an invaluable resource as well as insights for future study in this species to facilitate conservation and in the genus Rhododendron in general.

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