绒毡层
生物
减数分裂细胞
减数分裂
细胞生物学
遗传学
基因
移码突变
突变体
雄蕊
前期
联会复合体
位置克隆
配子体
内质网
拟南芥
同源染色体
选择性拼接
有性生殖
内含子
钙连接素
突触
RNA剪接
配子发生
异位表达
作者
Bowen Yao,Yang Hu,Hai Zheng,Chaolong Wang,Xiaowen Yu,Siqi Cheng,Z. K. Xie,Xiaodong He,Junwen Gao,Kun shao,Jiayu Lu,Dekun Lei,Anqi Jian,Hao Yu,Yuantao Zhu,Song Guo,Xufei Zhu,Shihao Zhang,Ling He,Zhao Xie
出处
期刊:Plant Journal
[Wiley]
日期:2026-02-01
卷期号:125 (4): e70722-e70722
摘要
In higher plants, both normal meiosis and timely degradation of tapetal cells are crucial for gametophyte development, and abnormal reactive oxygen species (ROS) levels are detrimental to this process. However, the molecular mechanisms underlying their coordination remain unclear. Here, we isolated and characterized a sterile rice mutant, designated as abnormal meiocytes and tapetum 1 (Osamt1). Compared with the wild-type (WT), Osamt1 mutant plants exhibited meiotic chromosomal fragmentation, arrest of pollen mother cell development at meiotic prophase I, abnormal tapetal development, and excessive accumulation of ROS. Map-based cloning revealed that the OsAMT1 gene encodes a protein containing a DUF1771 domain with a Small MutS-related (SMR) domain, whose function is related to DNA repair. Sequence analysis revealed that a single-nucleotide mutation occurred at the splice site between the 5th exon and its adjacent intron of Osamt1, leading to a longer transcript than that in the WT. This aberrant splicing resulted in a frameshift and consequently introduced a premature stop codon. Subcellular localization showed that OsAMT1 is localized to the endoplasmic reticulum (ER). Tissue expression analysis demonstrated that OsAMT1 is strongly expressed in tapetal cells during the early stage of anther development. Biochemical analyses further established that OsAMT1 can physically interact with OsMT2b, a key mediator of ROS scavenging. Further RT-qPCR assays indicated that OsAMT1 affects the reproductive process by influencing the expression of genes related to meiosis and tapetal development. Collectively, our study identifies OsAMT1 as a key regulator of meiosis and tapetum development, expanding the network of reproductive development in rice.
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