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Transcriptomic Analysis of Rice Varieties Under System of Rice Intensification (SRI) Management
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Metadata
Document Title
Transcriptomic Analysis of Rice Varieties Under System of Rice Intensification (SRI) Management
Author
Yusof N.; Shiotsu F.; McTaggart I.; Aesomnuk W.; Siangliw J.L.; Wanchana S.; Yano K.; Noborio K.
Name from Authors Collection
Affiliations
Graduate School of Agriculture, Meiji University, Kanagawa, Kawasaki, 214-8571, Japan; School of Agriculture, Meiji University, Kanagawa, Kawasaki, 214-8571, Japan; Rice Science Center, Kasetsart University, Nakhon Pathom, 73140, Thailand; National Center for Genetic Engineering and Biotechnology (BIOTEC), 113 Thailand Science Park, Pahonyothin Road, Khlong Nueng, Khlong Luang, Pathum Thani, 12120, Thailand; WellGreen-i Co., Ltd., Kanagawa, Kawasaki, 215-0007, Japan
Type
Article
Source Title
Crops
ISSN
26737655
Year
2025
Volume
5
Issue
6
Open Access
All Open Access; Gold Open Access; Green Open Access
Publisher
Multidisciplinary Digital Publishing Institute (MDPI)
DOI
10.3390/crops5060092
Abstract
The System of Rice Intensification which promotes agro-ecological practices like alternate wetting and drying (AWD) to enhance root growth and resource efficiency, relies on the genotypic capacity of rice varieties to undergo physiological adaptation. This study elucidates the molecular basis of such adaptation by investigating the transcriptomic profile of four rice varieties to continuous flooding (CF) and AWD at 50 days after transplanting. Our analysis revealed distinct, organ-specific acclimation strategies. Roots underwent extensive transcriptional reprogramming, underscoring their role as the primary site of plasticity. Under CF, a conserved response involving cell wall reinforcement was accompanied by variety-specific strategies, ranging from sustained growth to enhanced anaerobic metabolism. Under AWD, roots shifted toward water stress management, with varieties employing distinct defensive (e.g., diterpenoid biosynthesis) and metabolic programs. Associated transcription factors (TFs) enriched under CF included Dof and MYB, whereas bZIP, HSF, and WRKY factors predominated under AWD. In leaves, acclimation to AWD involved more targeted adjustments, including modulation of nitric oxide signaling and photoprotective pathways, regulated by TFs such as WRKY, NAC, and HSF. Varieties with robust TF responses, such as IR64 and Hitachi hatamochi, showed comprehensive regulatory shifts, while others exhibited more constrained profiles. Overall, this study provides a molecular framework for understanding variety-specific adaptation to SRI-relevant water management practices and identifies key TFs as promising candidates for breeding climate-resilient rice. © 2025 by the authors.
License
CC BY
Rights
Authors
Publication Source
Scopus