Abstract
A continuous increase in ambient temperature caused by global warming has been considered a worldwide threat. As sessile organisms, plants have evolved sophisticated heat shock response (HSR) to respond to elevated temperatures and other abiotic stresses, thereby minimizing damage and ensuring the protection of cellular homeostasis. In particular, for perennial trees, HSR is crucial for their long life cycle and development. HSR is a cell stress response that increases the number of chaperones including heat shock proteins (HSPs) to counter the negative effects on proteins caused by heat and other stresses. There are a large number of HSPs in plants, and their expression is directly regulated by a series of heat shock transcription factors (HSFs). Therefore, understanding the detailed molecular mechanisms of woody plants in response to extreme temperature is critical for exploring how woody species will be affected by climate changes. In this review article, we summarize the latest findings of the role of HSFs and HSPs in the HSR of woody species and discuss their regulatory networks and cross talk in HSR. In addition, strategies and programs for future research studies on the functions of HSFs and HSPs in the HSR of woody species are also proposed.
Original language | English |
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Article number | 704905 |
Journal | Frontiers in Plant Science |
Volume | 12 |
DOIs | |
State | Published - Jul 9 2021 |
Bibliographical note
Publisher Copyright:© Copyright © 2021 Tian, Hu, Yao, Yang, Chen, Lu and Zhang.
Funding
This work was supported by grants from the Key Scientific Research Projects of Institutions of Higher Learning in Henan Province (No. 19A180004) to FT and the Zhejiang A&F University Research and Development Fund Talent Startup Project (2021LFR013) to JZ.
Funders | Funder number |
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Key Scientific Research Projects of Institutions of Higher Learning in Henan Province | 19A180004 |
Zhejiang A&F University Research and Development Fund Talent Startup Project | 2021LFR013 |
Keywords
- heat shock protein
- heat shock transcription factor
- heat stress
- molecular response
- signaling network
- woody plants