OsLAP3/OsSTRL2, encoding a rice strictosidine synthase, is required for anther cuticle formation and pollen exine patterning in rice
文献类型: 外文期刊
第一作者: Chen, Dai-bo
作者: Chen, Dai-bo;Zhou, Ran;Zhang, Pei-pei;Yang, Zheng-fu;Xuan, Dan-dan;Zhang, Ying-xin;Zhan, Xiao-deng;Cao, Li-yong;Cheng, Shi-hua;Sun, Lian-ping;Zhou, Ran;Cao, Li-yong;Sun, Lian-ping;Wang, Hui-min;Yang, Zheng-fu
作者机构:
关键词:
rice; male sterility;
期刊名称:FRONTIERS IN PLANT SCIENCE ( 影响因子:4.8; 五年影响因子:5.7 )
ISSN: 1664-462X
年卷期: 2025 年 15 卷
页码:
收录情况: SCI
摘要: The formation of the anther wall and the development of pollen processes, central to rice fertility and yield, are highly dependent on the synthesis and accumulation of lipid polymers. Although several regulatory factors related to lipid biosynthesis during pollen wall development have been identified, the molecular mechanisms controlling these processes remain poorly understood. In this study, a male-sterile rice mutant, lap3, was identified, characterized by normal vegetative growth but complete male sterility due to delayed programmed cell death (PCD) in tapetal cells and defects in anther cuticle and pollen exine formation. Map-based cloning revealed that OsLAP3 is a new allele of the strictosidine synthase-like gene, OsSTRL2. Functional analysis, including complementation and CRISPR/Cas9-based gene editing, confirmed that the 2-nucleotide deletion in the OsLAP3 is responsible for the male sterility phenotype. OsLAP3 is homologous to the maize ZmMS45, the core recessive nuclear sterile gene of maize Seed Production Technology (SPT), and localizes to the endoplasmic reticulum and plays a conserved role in anther development and pollenformation. Gene expression analysis revealed a significant downregulation of key genes involved in anther development and sporopollenin biosynthesis in lap3 anthers. Furthermore, lipid profiling demonstrated a marked reduction in both wax and cutin content. These findings establish OsLAP3 as a critical regulator of fatty acid synthesis and highlight its role in anther cuticle formation and pollen exine development. The findings of this study provide valuable insights into the molecular regulation of lipid biosynthesis during rice male reproductive development and offer potential applications for hybrid rice breeding.
分类号:
- 相关文献
作者其他论文 更多>>
-
Identification and Molecular Marker Detection of Leaf Rust Resistance Genes in Wheat Lines from China: Development of an Efficient Software for Gene Postulation
作者:Gao, Pu;Dong, Rui;Wang, Xin-hai;Wang, Xue-qing;Zhang, Jia-yao;Zhang, Pei-pei;Li, Zai-feng;Liu, Peng-peng;Sang, Wei;Gebrewahid, Takele Weldu
关键词:gene postulation; graphical user interface; molecular marker; wheat leaf rust
-
Rice THIN CULM 4 (TC4) modulates culm strength by regulating morphology, structure, and development
作者:Zhou, Ran;Huang, Chenbo;Wen, Xiaoxia;Sun, Zhihao;Dong, Wei;Chen, Yuyu;Huang, Nuan;Zhang, Han;Su, Haihan;Li, Yanhui;Peng, Zequn;Zhang, Yingxin;Cao, Liyong;Cheng, Shihua;Zhan, Xiaodeng;Sun, Lianping;Chen, Daibo;Zhou, Ran;Huang, Chenbo;Wen, Xiaoxia;Sun, Zhihao;Dong, Wei;Chen, Yuyu;Huang, Nuan;Zhang, Han;Su, Haihan;Li, Yanhui;Peng, Zequn;Zhang, Yingxin;Cao, Liyong;Cheng, Shihua;Zhan, Xiaodeng;Sun, Lianping;Chen, Daibo;Zhou, Ran;Huang, Chenbo;Huang, Nuan;Su, Haihan;Cao, Liyong;Sun, Lianping;Dong, Wei;Chen, Yuyu
关键词:Rice; Culm development; TC4; Culm mechanical strength; Lodging resistance
-
DWARF AND LESS TILLERS ON CHROMOSOME 3 promotes tillering in rice by sustaining FLORAL ORGAN NUMBER 1 expression
作者:Fan, Yongyi;Chen, Hongmei;Wang, Beifang;Li, Dian;Zhou, Ran;Lian, Wangmin;Shao, Gaoneng;Wei, Xiangjin;Wu, Weixun;Liu, Qunen;Sun, Lianping;Zhan, Xiaodeng;Cheng, Shihua;Zhang, Yingxin;Cao, Liyong;Fan, Yongyi;Chen, Hongmei;Wang, Beifang;Li, Dian;Zhou, Ran;Lian, Wangmin;Shao, Gaoneng;Wei, Xiangjin;Wu, Weixun;Liu, Qunen;Sun, Lianping;Zhan, Xiaodeng;Cheng, Shihua;Zhang, Yingxin;Cao, Liyong;Wang, Beifang;Cao, Liyong;Cao, Liyong
关键词:
-
Improvement of Flowering Stage in Japonica Rice Variety Jiahe212 by Using CRISPR/Cas9 System
作者:He, Dengmei;Wang, Shiqiang;He, Dengmei;Zhou, Ran;Huang, Chenbo;Li, Yanhui;Peng, Zequn;Li, Dian;Duan, Wenjing;Huang, Nuan;Cao, Liyong;Cheng, Shihua;Zhan, Xiaodeng;Sun, Lianping;He, Dengmei;Zhou, Ran;Huang, Chenbo;Li, Yanhui;Peng, Zequn;Li, Dian;Duan, Wenjing;Huang, Nuan;Cao, Liyong;Cheng, Shihua;Zhan, Xiaodeng;Sun, Lianping;Cao, Liyong;Sun, Lianping;Wang, Shiqiang
关键词:rice; flowering period; multiplex genome editing; breed improvement
-
Ecosystem responses dominate the trends of annual gross primary productivity over terrestrial ecosystems of China during 2000-2020
作者:Zhu, Xian-Jin;Qi, Hua;Yu, Gui-Rui;Chen, Zhi;Zhang, Wei-Kang;Wang, Qiu-Feng;Yang, Meng;Liu, Zhao-Gang;Dou, Xiao-Jun;Ma, Le-Xin;Wang, Hui-Min;Zhao, Feng-Hua;Shi, Pei-Li;Zhang, Yang-Jian;Zhu, Zhi-Lin;Yu, Gui-Rui;Chen, Zhi;Wang, Qiu-Feng;Yang, Meng;Liu, Zhao-Gang;Dou, Xiao-Jun;Ma, Le-Xin;Zhang, Yang-Jian;Zhu, Zhi-Lin;Han, Lang;Chen, Shi-Ping;Liu, Shao-Min;Yan, Jun-Hua;Tan, Jun-Lei;Li, Yu-Qiang;Gao, Yan-Hong;Zhang, Fa-Wei;Li, Ying-Nian;Zhang, Yi-Ping;Song, Qing-Hai;Zhu, Jiao-Jun;Wu, Jia-Bing;De Jiang, Zheng;Zhao, Zhong-Hui;Hao, Yan-Bin;Zhang, Yu-Cui;Jiang, Shi-Cheng;Gu, Feng-Xue;Wu, Zhi-Xiang;Zhou, Li;Tang, Ya-Kun;Dong, Gang;Wang, Jian-Lin;He, Qi-Hua;Li, Xin-Hu;Wang, Fei;Wei, Wen-Xue;Deng, Zheng-Miao;Hao, Xiang-Xiang;Liu, Xiao-Li;Zhang, Xi-Feng;Zhu, Xian-Jin;Yu, Gui-Rui
关键词:Carbon cycles; Eddy covariance; Terrestrial ecosystems; Machine learning; Ecosystem responses
-
OsLDDT1, encoding a transmembrane structural DUF726 family protein, is essential for tapetum degradation and pollen formation in rice
作者:Sun, Zhihao;Liu, Keke;Chen, Chi;Chen, Daibo;Peng, Zequn;Zhou, Ran;Liu, Ling;He, Dengmei;Duan, Wenjing;Chen, Hongmei;Huang, Chenbo;Ruan, Zheyan;Zhang, Yingxin;Cao, Liyong;Zhan, Xiaodeng;Cheng, Shihua;Sun, Lianping;Sun, Zhihao;Liu, Keke;Chen, Chi;Chen, Daibo;Peng, Zequn;Zhou, Ran;Liu, Ling;He, Dengmei;Duan, Wenjing;Chen, Hongmei;Huang, Chenbo;Ruan, Zheyan;Zhang, Yingxin;Cao, Liyong;Zhan, Xiaodeng;Cheng, Shihua;Sun, Lianping;Cao, Liyong;He, Dengmei
关键词:Rice; Male sterility; OsLDDT1; Fatty acid synthesis; Transmembrane structural protein
-
Mapping Chinese annual gross primary productivity with eddy covariance measurements and machine learning
作者:Zhu, Xian-Jin;Yu, Gui-Rui;Chen, Zhi;Zhang, Wei-Kang;Wang, Qiu-Feng;Zhao, Feng-Hua;Shi, Pei -Li;Wang, Hui-Min;Zhang, Yang-Jian;Zhu, Zhi-Lin;Yu, Gui-Rui;Chen, Zhi;Wang, Qiu-Feng;Zhu, Zhi-Lin;Han, Lang;Chen, Shi-Ping;Jia, Bing-Rui;Liu, Shao-Min;Yan, Jun-Hua;Tan, Jun-Lei;Zhang, Fa -Wei;Li, Ying-Nian;Zhang, Yi-Ping;Sha, Li-Qing;Zhu, Jiao-Jun;Wu, Jia-Bing;Zhao, Zhong-Hui;Hao, Yan-Bin;Zhang, Yu-Cui;Gu, Feng-Xue;Zhu, Zhi-Lin;Zhou, Li;Tang, Ya-Kun;Dong, Gang;He, Qi-Hua;Li, Xin-Hu;Li, Xin-Hu;Wang, Fei;Wei, Wen-Xue;Deng, Zheng-Miao;Zhang, Xi-Feng;Yu, Gui-Rui;Wang, Qiu-Feng
关键词:Carbon cycle; Climate change; Eddy covariance; Terrestrial ecosystem; Machine learning; Scale extension
