The role of epigenetic regulation in adaptive phenotypic plasticity of plants

E. Kordyum, D. Dubyna
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引用次数: 1

Abstract

In recent decades, knowledge about the role of epigenetic regulation of gene expression in plant responses to external stimuli and in adaptation of plants to adverse environmental fluctuations have extended significantly. DNA methylation is considered as the main molecular mechanism that provides genomic information and contributes to the understanding of the molecular basis of phenotypic variations based on epigenetic modifications. Unfortunately, the vast majority of research in this area has been performed on the model species Arabidopsis thaliana. The development of the methylation-sensitive amplified polymorphism (MSAP) method has made it possible to implement the large-scale detection of DNA methylation alterations in wild non-model and agricultural plants with large and highly repetitive genomes in natural and manipulated habitats. The article presents current information on DNA methylation in species of natural communities and crops and its importance in plant development and adaptive phenotypic plasticity, along with brief reviews of current ideas about adaptive phenotypic plasticity and epigenetic regulation of gene expression. The great potential of further studies of the epigenetic role in phenotypic plasticity of a wide range of non-model species in natural populations and agrocenoses for understanding the molecular mechanisms of plant existence in the changing environment in onto- and phylogeny, directly related to the key tasks of forecasting the effects of global warming and crop selection, is emphasized. Specific taxa of the Ukrainian flora, which, in authors’ opinion, are promising and interesting for this type of research, are recommended.
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表观遗传调控在植物适应性表型可塑性中的作用
近几十年来,关于表观遗传调控基因表达在植物对外部刺激的反应和植物对不利环境波动的适应中的作用的知识有了显著的扩展。DNA甲基化被认为是提供基因组信息的主要分子机制,有助于理解基于表观遗传修饰的表型变异的分子基础。不幸的是,这一领域的绝大多数研究都是在模式物种拟南芥(Arabidopsis thaliana)上进行的。甲基化敏感扩增多态性(methyl- sensitive amplification polymorphism, MSAP)方法的发展,使得在自然和人工控制的生境中,大规模检测具有大且高度重复基因组的野生非模式植物和农业植物的DNA甲基化变化成为可能。本文介绍了自然群落和作物物种DNA甲基化的最新研究进展及其在植物发育和适应性表型可塑性中的重要性,并简要综述了目前关于适应性表型可塑性和基因表达表观遗传调控的研究进展。强调了进一步研究表观遗传在自然种群和农合植物群落中广泛非模式物种表型可塑性中的作用,以了解植物在变化环境中生存的分子机制和系统发育,直接关系到预测全球变暖和作物选择的关键任务。乌克兰植物群的具体分类群,其中,在作者看来,是有前途的和有趣的这种类型的研究,推荐。
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来源期刊
CiteScore
0.80
自引率
0.00%
发文量
36
审稿时长
8 weeks
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