Division of Molecular Biology, Department of Biology, Faculty of Science, University of Zagreb, Croatia.
Laboratory for Research and Protection of Endemic Resources, Department of Biology, Faculty of Sciences, University of Sarajevo, Bosnia and Herzegovina.
Genome Biol Evol. 2018 Jan 1;10(1):291-303. doi: 10.1093/gbe/evy010.
Epigenetic variation in natural populations with contrasting habitats might be an important element, in addition to the genetic variation, in plant adaptation to environmental stress. Here, we assessed genetic, epigenetic, and cytogenetic structure of the three Lilium bosniacum populations growing on distinct habitats. One population was growing under habitual ecological conditions for this species and the other two were growing under stress associated with high altitude and serpentine soil. Amplified fragment length polymorphism and methylation-sensitive amplification polymorphism analyses revealed that the three populations did not differentiate genetically, but were clearly separated in three distinct clusters according to DNA methylation profiles. Principal coordinate analysis showed that overall epigenetic variation was closely related to habitat conditions. A new methylation-sensitive amplification polymorphism scoring approach allowed identification of mainly unmethylated (φST = 0.190) and fully CpG methylated (φST = 0.118) subepiloci playing a role in overall population differentiation, in comparison with hemimethylated sites (φST = 0.073). In addition, unusual rDNA repatterning and the presence of B chromosomes bearing 5S rDNA loci were recorded in the population growing on serpentine soil, suggesting dynamic chromosome rearrangements probably linked to global genome demethylation, which might have reactivated some mobile elements. We discuss our results considering our earlier data on morphology and leaf anatomy of several L. bosniacum populations, and suggest a possible role of epigenetics as a key element in population differentiation associated with environmental stress in these particular lily populations.
在具有不同生境的自然种群中,除了遗传变异外,表观遗传变异可能是植物适应环境胁迫的一个重要因素。在这里,我们评估了生长在不同生境的 3 个波斯尼亚百合种群的遗传、表观遗传和细胞遗传结构。一个种群在该物种的习惯生态条件下生长,另外两个种群在与高海拔和蛇纹土相关的胁迫条件下生长。扩增片段长度多态性和甲基化敏感扩增多态性分析表明,这三个种群在遗传上没有分化,但根据 DNA 甲基化图谱清楚地分为三个不同的聚类。主坐标分析表明,总体表观遗传变异与生境条件密切相关。一种新的甲基化敏感扩增多态性评分方法可以识别主要未甲基化(φST=0.190)和完全 CpG 甲基化(φST=0.118)的亚基因座,这些亚基因座在总体种群分化中起作用,而半甲基化位点(φST=0.073)则没有起作用。此外,在生长在蛇纹土上的种群中记录到了 rDNA 重新排列和带有 5S rDNA 位点的 B 染色体的存在,这表明动态染色体重排可能与全基因组去甲基化有关,这可能激活了一些移动元件。我们结合之前对几个波斯尼亚百合种群形态和叶片解剖结构的研究结果讨论了我们的研究结果,并提出了表观遗传学作为与这些特定百合种群环境胁迫相关的种群分化的关键因素的可能作用。
