Identification of NADPH Oxidase Genes Crucial for Rice Multiple Disease Resistance and Yield Traits

Zhu, Yong; Su, Hao; Liu, Xin-Xian; Sun, Ji-Fen; Xiang, Ling; Liu, Yan-Jing; Hu, Zhang-Wei; Xiong, Xiao-Yu; Yang, Xue-Mei; Bhutto, Sadam Hussain; Li, Guo-Bang; Peng, Yuan-Ying; Wang, He; Shen, Xu; Zhao, Zhi-Xue; Zhang, Ji-Wei; Huang, Yan-Yan; Fan, Jing; Wang, Wen-Ming; Li, Yan

doi:10.1186/s12284-023-00678-5

Cited by 7 publications

(1 citation statement)

References 42 publications

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“…In rice, OsRbohB promotes apoplastic H 2 O 2 production in response to abiotic stress (Shi et al, 2020; Wang et al, 2023) . Mutation of different OsRbohs leads to decreased rice blast, bacterial blight, and sheath blight resistance, and all osrboh mutants display one or more compromised yield traits (Zhu et al, 2024) . Indeed, even under stress, the intracellular ROS levels are tightly controlled; an increase in ROS production rates does not necessarily translate into elevated ROS homeostasis concentration (Waszczak et al, 2018) .…”

Section: Introductionmentioning

confidence: 99%

The Class III peroxidase OsPrx20 is a key regulator of stress response and growth in rice

Shen,

Wang,

Chen

et al. 2024

Preprint

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In plants, reactive oxygen species maintain strictly low intracellular levels that is prerequisite for their function as second messengers. However, abiotic and biotic stresses are also long-term processes, requiring rapid scavenging of excess intracellular ROS. Plant Class III peroxidases, as multifunctional enzymes, are core enzymes in regulating intracellular ROS homeostasis and are key to regulating the complicated signaling network. Here, we found a rice Class III peroxidase OsPrx20 maintains intracellular ROS homeostasis in different conditions. OsPrx20 is a target of Ca2+/calmodulin-dependent protein kinase (OsDMI3) and phosphorylates its Thr-244 site by OsDMI3. Overexpression of OsPrx20 enhances osmotic stress tolerance but reduces blast resistance, while lack of OsPrx20 is opposite, suggesting OsPrx20 positively regulates osmotic stress tolerance but negatively regulates blast resistance in rice. Meanwhile, overexpression of OsPrx20 enlarges spike size and grain fullness, whereas lack of OsPrx20 leads to dwarfism and smaller spike. In ABA signaling, OsPrx20 Thr-244 phosphorylation is specifically dependent on OsDMI3 to reduce the sensitivity of ABA to seed germination and root growth and to enhance osmotic stress tolerance without affecting spike and grain development. Our study reveals an essential regulatory mechanism that directly activates OsPrx20 in ABA signaling, highlighting the multi-functionality of OsPrx20 in different biological processes.

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