生物
锌指
细胞生物学
表型
雄蕊
突变体
互补
基因
遗传学
突变
位置克隆
克隆(编程)
锌
水稻
双分子荧光互补
生物化学
花序
表皮(毛发)
不育
基因剔除小鼠
泛素
胚胎
穗
原位杂交
核糖核酸
作者
Asif Ali,Peizhou Xu,Kangxi Du,Yongxiang Liao,Yanxin Wang,Yaxin Liao,Asad Riaz,Waqas Amin,Muhammad Yaseen,Hongyu Zhang,Xiaoqiong Chen,Duo Xia,Hao Zhou,Daiming Guo,Ming Ronnier Luo,W. James Peacock,ES Dennis,Wenming Wang,Xianjun Wu
出处
期刊:Plant Journal
[Wiley]
日期:2026-02-01
卷期号:125 (4): e70743-e70743
摘要
Spikelet abortion is a critical defect affecting rice yield. Here, we characterized an apical panicle abortion1304 (apa1304) mutant, which displays apical spikelet abortion and defective anther cuticle formation. Phenotypic and cytological analyses revealed aborted and pollen-less anthers in the apical spikelets of apa1304. Results of Map-based cloning and MutMap analyses revealed that the candidate gene controlling the phenotype of apa1304 is a deubiquitinase, OsUCH4, encoding a ubiquitin carboxyl-terminal hydrolase. RNA in situ hybridization and qRT-PCR showed that OsUCH4 is ubiquitously expressed with enrichment in young spikelets, tapetum, and male meiocytes. CRISPR/Cas9 knockout lines mimicked the mutant phenotype, while complementation rescued spikelet fertility. Protein interaction assays (Y2H, LUC complementation, and GST pull-down) demonstrated that OsUCH4 physically interacts with OsMT2b, a protein previously known for ROS-scavenging and zinc transportation to the panicle. In vitro assays confirmed that OsUCH4 can deubiquitinate polyubiquitinated proteins derived from substrates UBQ1 and UBQ10, both independently and in the presence of OsMT2b. Multi-omics analyses further highlighted disruptions in redox and zinc transportation pathways in apa1304. Collectively, our findings reveal that OsUCH4 contributes to spikelet fertility through interaction with redox-associated protein OsMT2b, providing new insights into the molecular regulation of spikelet fertility in rice.
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