Abstract:
:The increased prevalence of high temperatures (HTs) around the world is a major global concern, as they dramatically affect agronomic productivity. Upon HT exposure, plants sense the temperature change and initiate cellular and metabolic responses that enable them to adapt to their new environmental conditions. Decoding the mechanisms by which plants cope with HT will facilitate the development of molecular markers to enable the production of plants with improved thermotolerance. In recent decades, genetic, physiological, molecular, and biochemical studies have revealed a number of vital cellular components and processes involved in thermoresponsive growth and the acquisition of thermotolerance in plants. This review summarizes the major mechanisms involved in plant HT responses, with a special focus on recent discoveries related to plant thermosensing, heat stress signaling, and HT-regulated gene expression networks that promote plant adaptation to elevated environmental temperatures.
journal_name
J Integr Plant Bioljournal_title
Journal of integrative plant biologyauthors
Li B,Gao K,Ren H,Tang Wdoi
10.1111/jipb.12701subject
Has Abstractpub_date
2018-09-01 00:00:00pages
757-779issue
9eissn
1672-9072issn
1744-7909journal_volume
60pub_type
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