Chromosome‐level genome assembly of Pedicularis kansuensis illuminates genome evolution of facultative parasitic plant

生物 兼性 基因组 寄生植物 水平基因转移 列当科 宿主适应 基因家族 流动遗传元素 基因组进化 植物 遗传学 寄主(生物学) 进化生物学 基因
作者
Longfa Fang,Mingyu Li,Jia Zhang,Chenglin Jia,Yuqing Qiang,Xiaojuan He,Tao Liu,Qiang Zhou,Dong Luo,Yuling Han,Zhen Li,Wenxian Liu,Yongzhi Yang,Jianquan Liu,Zhipeng Liu
出处
期刊:Molecular Ecology Resources [Wiley]
卷期号:24 (5)
标识
DOI:10.1111/1755-0998.13966
摘要

Abstract Parasitic plants have a heterotrophic lifestyle, in which they withdraw all or part of their nutrients from their host through the haustorium. Despite the release of many draft genomes of parasitic plants, the genome evolution related to the parasitism feature of facultative parasites remains largely unknown. In this study, we present a high‐quality chromosomal‐level genome assembly for the facultative parasite Pedicularis kansuensis (Orobanchaceae), which invades both legume and grass host species in degraded grasslands on the Qinghai‐Tibet Plateau. This species has the largest genome size compared with other parasitic species, and expansions of long terminal repeat retrotransposons accounting for 62.37% of the assembly greatly contributed to the genome size expansion of this species. A total of 42,782 genes were annotated, and the patterns of gene loss in P. kansuensis differed from other parasitic species. We also found many mobile mRNAs between P. kansuensis and one of its host species, but these mobile mRNAs could not compensate for the functional losses of missing genes in P. kansuensis . In addition, we identified nine horizontal gene transfer (HGT) events from rosids and monocots, as well as one single‐gene duplication events from HGT genes, which differ distinctly from that of other parasitic species. Furthermore, we found evidence for HGT through transferring genomic fragments from phylogenetically remote host species. Taken together, these findings provide genomic insights into the evolution of facultative parasites and broaden our understanding of the diversified genome evolution in parasitic plants and the molecular mechanisms of plant parasitism.

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