OsGRF6‐OsYUCCA1/OsWRKY82 Signaling Cascade Upgrade Grain Yield and Bacterial Blight Resistance in Rice

As a major crop in the world, the sustainable development of rice is often severely restricted by bacterial blight. Breeding crops with resistance is an efficient way to control bacterial blight. However, enhancing resistance often incurs a fitness penalty, making it challenging to simultaneously in...

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Veröffentlicht in:Advanced science 2024-12, Vol.11 (46), p.e2407733-n/a
Hauptverfasser: Yuan, Huanran, Cheng, Mingxing, Fan, Fengfeng, Zheng, Xingfei, Wang, Ruihua, Si, Fengfeng, Luo, Xiong, Li, Nengwu, Li, Shaoqing
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Sprache:eng
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Zusammenfassung:As a major crop in the world, the sustainable development of rice is often severely restricted by bacterial blight. Breeding crops with resistance is an efficient way to control bacterial blight. However, enhancing resistance often incurs a fitness penalty, making it challenging to simultaneously increase bacterial blight resistance and yield potential. In this study, it is found that OsGRF6, besides being a high‐yield gene, can significantly improve rice bacterial blight resistance. Compared with wild‐type, the lesion lengths of transgenic material overexpressing OsGRF6 are significantly reduced after inoculation with Xanthomonas oryzae pv. oryzae (Xoo). Furthermore, OsGRF6 can directly bind to the promoters of OsYUCCA1 and OsWRKY82, upregulating their transcription and thereby increasing rice bacterial blight resistance and yield. Haplotypic analysis based on the promoter and genome sequence combined with evolutionary analysis revealed that OsGRF6 is mainly comprised by the OsGRF6XI and OsGRF6GJ subtypes. The superior haplotype OsGRF6Hap4 increased its transcriptional activity and contributed to bacterial blight resistance and rice yield. Together, this study provides theoretical support for further revealing the synergistic regulatory mechanism and genetic improvement of rice high yield and bacterial blight resistance, offering a new strategy for developing disease‐resistant cultivars. In this study, OsGRF6 enhances rice grain yield by regulating OsYUCCA1, which modulates auxin metabolism and promotes secondary branch development. During bacterial blight infection, OsGRF6 transcription increases, activating OsWRKY82 and triggering disease‐responsive genes, H2O2 accumulation, and the JA pathway for improved resistance.
ISSN:2198-3844
2198-3844
DOI:10.1002/advs.202407733