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Epigenetic regulation of JASMONATE ZIM-DOMAIN genes contributes to heat tolerance in the heat-tolerant rice cultivar Nagina 22

07.23.25 | Beijing Zhongke Journal Publising Co. Ltd.

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Understanding how rice tolerates heat stress
Utilizing multiomic analysis to answer why some rice cultivars are more tolerant to heat stress than others. Credit: Beijing Zhongke Journal Publising Co. Ltd.

The study led by Dr. Xiangsong Chen (Wuhan University) and Dr. Haiya Cai (Hubei Academy of Agricultural Sciences) analyzed the transcriptomes of two rice cultivars, Nagina22 and 93-11, under high-temperature stress. It was found that the expression of JAZ genes specifically increased significantly in N22 at the early stage of heat stress, accompanied by a significant decrease in the expression of downstream response genes of the Jasmonic acid (JA) signaling pathway. Additionally, exogenous application of JA significantly reduced the heat tolerance of N22, indicating that the suppression of JA signaling at the early stage of heat stress may be one of the reasons for the high heat-tolerance of N22.

They further explored the reasons for the specific upregulation of JAZ genes in N22 under high-temperature stress from the perspective of epigenetic regulation. DNA methylation analysis revealed that during heat treatment, N22 exhibited more drastic whole-genome DNA methylation fluctuations, mainly manifested as genome-wide DNA demethylation at the early stage of heat stress, especially CHH demethylation, while the changes in 93-11 were very slight. The analysis found that MITEs transposons were significantly enriched in the regions of CHH demethylation, and the surrounding regions of the JAZ genes were rich in MITEs transposons, suggesting that that the DNA demethylation of MITEs transposons in N22 under heat stress might be the reason for the upregulated expression of JAZ genes. Given the widespread distribution of MITEs transposons in the genome, the findings of this study suggested that MITEs may regulate gene expression through their own DNA methylation modifications, thereby helping plants better adapt to environmental changes.

See the article:

Epigenetic regulation of Jasmonate ZIM-domain genes contributes to heat tolerance in the heat-tolerant rice cultivar Nagina 22

https://link.springer.com/article/10.1007/s42994-025-00229-0

aBIOTECH

10.1007/s42994-025-00229-0

Epigenetic regulation of JASMONATE ZIM-DOMAIN genes contributes to heat tolerance in the heat-tolerant rice cultivar Nagina 22

16-Jul-2025

Keywords

Heat

Article Information

Journal
aBIOTECH
DOI
10.1007/s42994-025-00229-0
Article Publication Date
2025-07-16
Article Title
Epigenetic regulation of JASMONATE ZIM-DOMAIN genes contributes to heat tolerance in the heat-tolerant rice cultivar Nagina 22

Contact Information

LIngshu Qian
Beijing Zhongke Journal Publising Co. Ltd.
zhongkeqikan@mail.sciencep.com

How to Cite This Article

APA:
Beijing Zhongke Journal Publising Co. Ltd.. (2025, July 23). Epigenetic regulation of JASMONATE ZIM-DOMAIN genes contributes to heat tolerance in the heat-tolerant rice cultivar Nagina 22. Brightsurf News. https://www.brightsurf.com/news/LMJ72Y5L/epigenetic-regulation-of-jasmonate-zim-domain-genes-contributes-to-heat-tolerance-in-the-heat-tolerant-rice-cultivar-nagina-22.html
MLA:
"Epigenetic regulation of JASMONATE ZIM-DOMAIN genes contributes to heat tolerance in the heat-tolerant rice cultivar Nagina 22." Brightsurf News, Jul. 23 2025, https://www.brightsurf.com/news/LMJ72Y5L/epigenetic-regulation-of-jasmonate-zim-domain-genes-contributes-to-heat-tolerance-in-the-heat-tolerant-rice-cultivar-nagina-22.html.