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OsKANADI1和OsYABBY5通过靶向赤霉素2-氧化酶6来调控水稻株高。

OsKANADI1 and OsYABBY5 regulate rice plant height by targeting GIBERELLIN 2-OXIDASE6.

作者信息

He Qi, Wu Hao, Zeng Longjun, Yin Caiyun, Wang Li, Tan Yiqing, Lv Wanqing, Liao Zhiqiang, Zheng Xuelian, Zhang Shuting, Han Qinqin, Wang Danning, Zhang Yong, Xiong Guosheng, Wang Quan

机构信息

Shenzhen Branch, Guangdong Laboratory of Lingnan Modern Agriculture, Genome Analysis Laboratory of the Ministry of Agriculture and Rural Affairs, Agricultural Genomics Institute at Shenzhen, Chinese Academy of Agricultural Sciences, Shenzhen 518120, China.

Chongqing Key Laboratory of Plant Resource Conservation and Germplasm Innovation, Integrative Science Center of Germplasm Creation in Western China (Chongqing) Science City, School of Life Sciences, Southwest University, Chongqing 400715, China.

出版信息

Plant Cell. 2024 Dec 23;37(1). doi: 10.1093/plcell/koae276.

DOI:10.1093/plcell/koae276
PMID:39383255
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11663581/
Abstract

Plant height is an important agronomic characteristic of rice (Oryza sativa L.). Map-based cloning analyses of a natural semi-dwarf rice mutant with inwardly curled leaves found in the field revealed that the defects were due to a mutation of a SHAQKYF-class MYB family transcription factor, OsKANADI1 (OsKAN1). OsKAN1 directly bound to the OsYABBY5 (OsYAB5) promoter to repress its expression and interacted with OsYAB5 to form a functional OsKAN1-OsYAB5 complex. GIBERELLIN 2-OXIDASE6 (OsGA2ox6), encoding an enzyme in the gibberellin (GA) catabolic pathway, was activated by OsYAB5. Furthermore, the OsKAN1-OsYAB5 complex suppressed the inhibitory effect of OsKAN1 toward OsYAB5 and inhibited OsYAB5-induced OsGA2ox6 expression. The proOsKAN1:OsYAB5 transgenic plants were taller than wild-type plants, whereas oskan1 proOsKAN1:OsYAB5 plants exhibited a severe dwarf phenotype due to the absence of the OsKAN1-OsYAB5 complex. The OsKAN1-OsYAB5 complex modulated OsGA2ox6 expression, thereby regulating the levels of bioactive gibberellins and, consequently, plant height. This study elucidated the mechanism underlying the effect of the OsKAN1-OsYAB5-OsGA2ox6 regulatory pathway on plant height at different positions in rice stems and provided insights on stem development and candidate genes for the aerial architecture improvement of crop plants.

摘要

株高是水稻(Oryza sativa L.)的一个重要农艺性状。对田间发现的一种具有向内卷曲叶片的天然半矮秆水稻突变体进行基于图谱的克隆分析表明,这些缺陷是由于一个SHAQKYF类MYB家族转录因子OsKANADI1(OsKAN1)发生突变所致。OsKAN1直接与OsYABBY5(OsYAB5)启动子结合以抑制其表达,并与OsYAB5相互作用形成功能性的OsKAN1 - OsYAB5复合体。赤霉素2 -氧化酶6(OsGA2ox6)编码赤霉素(GA)分解代谢途径中的一种酶,它被OsYAB5激活。此外,OsKAN1 - OsYAB5复合体抑制了OsKAN1对OsYAB5的抑制作用,并抑制了OsYAB5诱导的OsGA2ox6表达。proOsKAN1:OsYAB5转基因植株比野生型植株更高,而oskan1 proOsKAN1:OsYAB5植株由于缺乏OsKAN1 - OsYAB5复合体而表现出严重的矮化表型。OsKAN1 - OsYAB5复合体调节OsGA2ox6的表达,从而调节生物活性赤霉素的水平,进而影响株高。本研究阐明了OsKAN1 - OsYAB5 - OsGA2ox6调控途径对水稻茎不同部位株高影响的机制,并为作物地上部结构改良的茎发育和候选基因提供了见解。

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