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APETALA2 转录因子 shattering abortion1 控制水稻种子裂颖

Genetic control of seed shattering in rice by the APETALA2 transcription factor shattering abortion1.

机构信息

National Center for Gene Research, National Center for Plant Gene Research Shanghai and Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences, Shanghai 200233, China.

出版信息

Plant Cell. 2012 Mar;24(3):1034-48. doi: 10.1105/tpc.111.094383. Epub 2012 Mar 9.

DOI:10.1105/tpc.111.094383
PMID:22408071
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3336138/
Abstract

Seed shattering is an important agricultural trait in crop domestication. SH4 (for grain shattering quantitative trait locus on chromosome 4) and qSH1 (for quantitative trait locus of seed shattering on chromosome 1) genes have been identified as required for reduced seed shattering during rice (Oryza sativa) domestication. However, the regulatory pathways of seed shattering in rice remain unknown. Here, we identified a seed shattering abortion1 (shat1) mutant in a wild rice introgression line. The SHAT1 gene, which encodes an APETALA2 transcription factor, is required for seed shattering through specifying abscission zone (AZ) development in rice. Genetic analyses revealed that the expression of SHAT1 in AZ was positively regulated by the trihelix transcription factor SH4. We also identified a frameshift mutant of SH4 that completely eliminated AZs and showed nonshattering. Our results suggest a genetic model in which the persistent and concentrated expression of active SHAT1 and SH4 in the AZ during early spikelet developmental stages is required for conferring AZ identification. qSH1 functioned downstream of SHAT1 and SH4, through maintaining SHAT1 and SH4 expression in AZ, thus promoting AZ differentiation.

摘要

种子破碎是作物驯化过程中的一个重要农业性状。SH4(第 4 号染色体上的谷物破碎数量性状位点)和 qSH1(第 1 号染色体上的种子破碎数量性状位点)基因已被鉴定为降低水稻驯化过程中种子破碎所必需的。然而,水稻种子破碎的调控途径仍然未知。在这里,我们在野生稻导入系中鉴定到一个种子破碎不育 1(shat1)突变体。SHAT1 基因编码一个 APETALA2 转录因子,通过在水稻中指定离区(AZ)的发育来实现种子破碎。遗传分析表明,SHAT1 在 AZ 中的表达受三螺旋转录因子 SH4 的正向调控。我们还鉴定了一个 SH4 的移码突变体,该突变体完全消除了 AZs 并表现出不破碎。我们的研究结果提出了一个遗传模型,即早期小穗发育阶段 AZ 中活跃的 SHAT1 和 SH4 的持续和集中表达,是赋予 AZ 识别的必需条件。qSH1 位于 SHAT1 和 SH4 的下游,通过在 AZ 中维持 SHAT1 和 SH4 的表达,从而促进 AZ 的分化。

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