PINOID and PIN-FORMED Paralogous Genes Are Required for Leaf Morphogenesis in Rice
文献类型: 外文期刊
第一作者: Liu, Jiajun
作者: Liu, Jiajun;Shi, Xi'an;Zhong, Tianhui;Jie, Wanrong;Xu, Ruihan;Ding, Yanfeng;Ding, Chengqiang;Liu, Jiajun;Ding, Yanfeng;Ding, Chengqiang;Ding, Yanfeng;Ding, Chengqiang
作者机构:
关键词: Auxin; Leaf morphogenesis; OsPID; OsPIN1c; OsPIN1d; Rice
期刊名称:PLANT AND CELL PHYSIOLOGY ( 影响因子:4.9; 五年影响因子:5.7 )
ISSN: 0032-0781
年卷期: 2023 年
页码:
收录情况: SCI
摘要: Auxin plays an essential role in modulating leaf development. However, its role in leaf development in rice (Oryza sativa L.) remains largely unknown. In this study, we found that PINOID (OsPID) and two Sister-of-PIN1s, termed PIN-FORMED1c (OsPIN1c) and OsPIN1d, are necessary for rice leaf development. The ospin1c ospin1d null mutant lines presented severe defects in leaf morphogenesis, including drooping and semi-drooping blades, an abnormally thickened sheath and lamina joint, and fused leaves with absent ligules and auricles. Loss-of-function ospid mutants displayed generally similar leaf morphology but lacked leaf fusion. Interestingly, misshaped leaf genesis displayed a preference for being ipsilateral. In addition, OsPIN1c and OsPID were commonly localized in the initiating leaf primordia. Furthermore, accompanied by the more severe organ morphogenesis in the ospin1c ospin1d ospid triple mutant, RNA sequencing analysis revealed that many genes essential for leaf development have an altered expression level. Together, this study furthers our understanding of the role auxin transport plays during leaf development in monocot rice.
分类号:
- 相关文献
作者其他论文 更多>>
-
Genome wide identification of GDSL gene family explores a novel GhirGDSL26 gene enhancing drought stress tolerance in cotton
作者:Liu, Jiajun;Liu, Jiangna;Wang, Heng;Xu, Yanchao;Hou, Yuqing;Wang, Yuhong;Zhou, Zhongli;Zheng, Jie;Liu, Fang;Cai, Xiaoyan;Khan, Aziz;Zheng, Jie;Zheng, Jie;Cai, Xiaoyan;Liu, Fang
关键词:Cotton; GDSL gene; Drought resistance; Functional identification
-
Effect of Biochar on Soil Physiochemical Properties and Bacterial Diversity in Dry Direct-Seeded Rice Paddy Fields
作者:Lv, Yandong;Guo, Xiaohong;Liu, Jiajun;Zou, Bing;Guo, Yukun;Zhang, Yanfei;Li, Hongyu;Zheng, Guiping;Guo, Yongxia;Lv, Yandong;Guo, Xiaohong;Li, Hongyu;Zheng, Guiping;Guo, Yongxia;Lv, Yandong;Guo, Xiaohong;Li, Hongyu;Zheng, Guiping;Guo, Yongxia;Xu, Lingqi;Zhao, Minghui
关键词:biochar; dry direct-seeded rice paddy; soil physiochemical properties; bacterial diversity
-
Greenhouse gas emissions and mitigation in rice agriculture
作者:Qian, Haoyu;Zhu, Xiangchen;Li, Ganghua;Liu, Zhenhui;Wang, Songhan;Ding, Yanfeng;Jiang, Yu;Qian, Haoyu;Zhu, Xiangchen;Li, Ganghua;Liu, Zhenhui;Wang, Songhan;Ding, Yanfeng;Jiang, Yu;Zhu, Xiangchen;Huang, Shan;Huang, Shan;Linquist, Bruce;Kuzyakov, Yakov;Kuzyakov, Yakov;Kuzyakov, Yakov;Wassmann, Reiner;Sander, Bjoern Ole;Wassmann, Reiner;Minamikawa, Kazunori;Martinez-Eixarch, Maite;Yan, Xiaoyuan;Zhou, Feng;Zhang, Weijian;Shang, Ziyin;Zou, Jianwen;Zheng, Xunhua;van Groenigen, Kees Jan
关键词:
-
The Yield-Forming Role of Nitrogen in Rice in the Growing Seasons with Variable Thermal Conditions
作者:Zhang, Jianwei;Xu, Cong;Liang, Dong;Zhang, Yongchun;Wang, Jidong;Zhang, Jianwei;Zhou, Yan;Xu, Lei;Ding, Yanfeng;Li, Ganghua;Wu, Longmei;Xu, Cong
关键词:thermal conditions; fertilization management; rice yield; nutritional balance; long-term experiment
-
Lower dose of controlled/slow release fertilizer with higher rice yield and N utilization in paddies: Evidence from a meta-analysis
作者:Liu, Yingduo;Ma, Chao;Hou, Pengfu;Liu, Yingduo;Hou, Pengfu;Xue, Lihong;Yang, Linzhang;Li, Ganghua;Jiang, Yu;Hou, Pengfu;Xue, Lihong;Yang, Linzhang;Ding, Yanfeng;Hou, Pengfu
关键词:Controlled/slow-release fertilizer; Meta-analysis; N utilization; Rice yield; Rice varieties
-
Comprehensive Evaluation of Rice Qualities under Different Nitrogen Levels in South China
作者:Ding, Chao;Yang, Jie;Ding, Chao;Xu, Congshan;Lu, Bo;Zhu, Xuhui;Luo, Xikun;He, Bin;Elidio, Cambula;Liu, Zhenghui;Ding, Yanfeng;Li, Ganghua
关键词:indica rice; japonica rice; nitrogen; comprehensive quality; principal component analysis
-
Genome-wide identification and functional analysis of ICE genes reveal that Gossypium thurberi "GthICE2" is responsible for cold and drought stress tolerance
作者:Han, Jiangping;Yang, Mengying;Liu, Fang;Cai, Xiaoyan;Han, Jiangping;Yang, Mengying;Liu, Fang;Umer, Muhammad Jawad;Hou, Yuqing;Mehari, Teame Gereziher;Zheng, Jie;Wang, Heng;Liu, Jiajun;Dong, Wenhao;Xu, Yanchao;Wang, Yuhong;Liu, Fang;Zhou, ZhongLi;Cai, Xiaoyan;Zheng, Jie;Liu, Fang;Cai, Xiaoyan;Mehari, Teame Gereziher
关键词:Cotton; Gossypium thurberi; ICE; Cold; Transgenic lines; Y1H; LUC