应对高山栖息地:从基因组学角度了解毛果芸香科植物 Triplostegia glandulifera 的适应策略。

IF 7.6 Q1 GENETICS & HEREDITY
Jian Zhang, Kai-Lin Dong, Miao-Zhen Ren, Zhi-Wen Wang, Jian-Hua Li, Wen-Jing Sun, Xiang Zhao, Xin-Xing Fu, Jian-Fei Ye, Bing Liu, Da-Ming Zhang, Mo-Zhu Wang, Gang Zeng, Yan-Ting Niu, Li-Min Lu, Jun-Xia Su, Zhong-Jian Liu, Pamela S Soltis, Douglas E Soltis, Zhi-Duan Chen
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引用次数: 0

摘要

植物是如何在高寒生境中茁壮成长的,这在很大程度上仍是一个未知数。在这里,我们展示了一种高山药用植物--Triplostegia glandulifera(Caprifoliaceae)--的染色体级基因组组装,以及来自 Dipsacales 其他物种的 13 个转录组。我们在 T. glandulifera 中检测到了发生在 Dipsacales 多样化之前的全基因组重复事件。研究发现,全基因组复制后基因的优先保留导致了 T. glandulifera 中冷相关基因的增加。一系列可能与高山适应有关的基因(如 CBFs、ERF-VIIs 和 RAD51C)在 T. glandulifera 中的表达水平高于在其低海拔亲缘植物忍冬中的表达水平。五对高海拔与低海拔物种之间的基因组比较分析(包括腺叶忍冬与忍冬的比较)表明,与低地亲缘植物相比,高山植物中与抗病性相关的基因家族经历了明显的趋同性收缩。基因库规模的缩小主要集中在识别病原体的基因群(如 CNLs、prRLPs 和 XII RLKs),而信号转导和发育基因群几乎没有变化。这一发现反映了在环境恶劣的高寒地区生存的节能策略,因为在那里,病原体的挑战较少,而生长资源有限。我们还发现了适应高寒地区的候选基因(如 RAD1、DMC1 和 MSH3),这些基因在所研究的高寒植物中处于趋同的正向选择下,或表现出趋同的进化速度加快。总之,我们的研究为该植物和其他高山植物的高海拔适应策略提供了新的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Coping with alpine habitats: genomic insights into the adaptation strategies of Triplostegia glandulifera (Caprifoliaceae).

How plants find a way to thrive in alpine habitats remains largely unknown. Here we present a chromosome-level genome assembly for an alpine medicinal herb, Triplostegia glandulifera (Caprifoliaceae), and 13 transcriptomes from other species of Dipsacales. We detected a whole-genome duplication event in T. glandulifera that occurred prior to the diversification of Dipsacales. Preferential gene retention after whole-genome duplication was found to contribute to increasing cold-related genes in T. glandulifera. A series of genes putatively associated with alpine adaptation (e.g. CBFs, ERF-VIIs, and RAD51C) exhibited higher expression levels in T. glandulifera than in its low-elevation relative, Lonicera japonica. Comparative genomic analysis among five pairs of high- vs low-elevation species, including a comparison of T. glandulifera and L. japonica, indicated that the gene families related to disease resistance experienced a significantly convergent contraction in alpine plants compared with their lowland relatives. The reduction in gene repertory size was largely concentrated in clades of genes for pathogen recognition (e.g. CNLs, prRLPs, and XII RLKs), while the clades for signal transduction and development remained nearly unchanged. This finding reflects an energy-saving strategy for survival in hostile alpine areas, where there is a tradeoff with less challenge from pathogens and limited resources for growth. We also identified candidate genes for alpine adaptation (e.g. RAD1, DMC1, and MSH3) that were under convergent positive selection or that exhibited a convergent acceleration in evolutionary rate in the investigated alpine plants. Overall, our study provides novel insights into the high-elevation adaptation strategies of this and other alpine plants.

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