Author: Liu, Junzhong; Feng, Lili; Li, Jianming; He, Zuhua
Description: Plants have evolved sophisticated genetic and epigenetic regulatory systems to respond quickly to unfavorable environmental conditions such as heat, cold, drought, and pathogen infections. In particular, heat greatly affects plant growth and development, immunity and circadian rhythm, and poses a serious threat to the global food supply. According to temperatures exposing, heat can be usually classified as warm ambient temperature (about 22-27°C), high temperature (27-30°C) and extremely high temperature (37-42°C, also known as heat stress) for the model plant Arabidopsis thaliana. The genetic mechanisms of plant responses to heat have been well studied, mainly focusing on elevated ambient temperature-mediated morphological acclimation and acceleration of flowering, modulation of circadian clock and plant immunity by high temperatures, and thermotolerance to heat stress. Recently, great progress has been achieved on epigenetic regulation of heat responses, including DNA methylation, histone modifications, histone variants, ATP-dependent chromatin remodeling, histone chaperones, small RNAs, long non-coding RNAs and other undefined epigenetic mechanisms. These epigenetic modifications regulate the expression of heat-responsive genes and function to prevent heat-related damages. This review focuses on recent progress regarding the genetic and epigenetic control of heat responses in plants and pays more attention to the role of the major epigenetic mechanisms in plant heat responses. Further research perspectives are also discussed.
Subject headings: Epigenetic regulation; Genetic mechanism; Heat; Small RNAs; Transgenerational memory; Plants; Responses; Stresses
Publication year: 2015
Journal or book title: Frontiers in Plant Science
Volume: 6
Pages: 267
Find the full text: https://www.strategian.com/fulltext/Liu2015.pdf
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Serial number: 3551