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Rht24b是TaGA2ox-A9的一个古老变异体,可降低小麦株高且不影响产量。

Rht24b, an ancient variation of TaGA2ox-A9, reduces plant height without yield penalty in wheat.

作者信息

Tian Xiuling, Xia Xianchun, Xu Dengan, Liu Yongqiang, Xie Li, Hassan Muhammad Adeel, Song Jie, Li Faji, Wang Desen, Zhang Yong, Hao Yuanfeng, Li Genying, Chu Chengcai, He Zhonghu, Cao Shuanghe

机构信息

Institute of Crop Sciences, National Wheat Improvement Center, Chinese Academy of Agricultural Sciences (CAAS), 12 Zhongguancun South Street, Beijing, 100081, China.

State Key Laboratory of Plant Genomics, Institute of Genetics and Developmental Biology, The Innovative Academy for Seed Design, Chinese Academy of Sciences, 1 West Beichen Road, Beijing, 100101, China.

出版信息

New Phytol. 2022 Jan;233(2):738-750. doi: 10.1111/nph.17808. Epub 2021 Nov 5.

DOI:10.1111/nph.17808
PMID:34655489
Abstract

Rht-B1b and Rht-D1b, the 'Green Revolution' (GR) genes, greatly improved yield potential of wheat under nitrogen fertilizer application, but reduced coleoptile length, seedling vigor and grain weight. Thus, mining alternative reduced plant height genes without adverse effects is urgently needed. We isolated the causal gene of Rht24 through map-based cloning and characterized its function using transgenic, physiobiochemical and transcriptome assays. We confirmed genetic effects of the dwarfing allele Rht24b with an association analysis and also traced its origin and distribution. Rht24 encodes a gibberellin (GA) 2-oxidase, TaGA2ox-A9. Rht24b conferred higher expression of TaGA2ox-A9 in stems, leading to a reduction of bioactive GA in stems but an elevation in leaves at the jointing stage. Strikingly, Rht24b reduced plant height, but had no yield penalty; it significantly increased nitrogen use efficiency, photosynthetic rate and the expression of related genes. Evolutionary analysis demonstrated that Rht24b first appeared in wild emmer and was detected in more than half of wild emmer and wheat accessions, suggesting that it underwent both natural and artificial selection. These findings uncover an important genetic resource for wheat breeding and also provide clues for dissecting the regulatory mechanisms underlying GA-mediated morphogenesis and yield formation.

摘要

“绿色革命”(GR)基因Rht - B1b和Rht - D1b在施用氮肥的情况下极大地提高了小麦的产量潜力,但缩短了胚芽鞘长度、降低了幼苗活力和粒重。因此,迫切需要挖掘无不良影响的替代矮秆基因。我们通过图位克隆分离出Rht24的致病基因,并利用转基因、生理生化和转录组分析对其功能进行了表征。我们通过关联分析证实了矮化等位基因Rht24b的遗传效应,并追踪了其起源和分布。Rht24编码一种赤霉素(GA)2 -氧化酶TaGA2ox - A9。Rht24b使TaGA2ox - A9在茎中的表达更高,导致拔节期茎中生物活性GA减少,但叶片中GA增加。引人注目的是,Rht24b降低了株高,但对产量没有负面影响;它显著提高了氮素利用效率、光合速率及相关基因的表达。进化分析表明,Rht24b首次出现在野生二粒小麦中,并且在超过一半的野生二粒小麦和小麦种质中被检测到,这表明它经历了自然选择和人工选择。这些发现揭示了一种重要的小麦育种遗传资源,也为剖析GA介导的形态建成和产量形成的调控机制提供了线索。

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