Auxin Signaling is Involved in Iron Deficiency-induced Photosynthetic Inhibition and Shoot Growth Defect in Rice (Oryza sativa L.)

文献类型: 外文期刊

第一作者: Liu, Kaidong

作者: Liu, Kaidong;Yuan, Changchun;Liu, Jinxiang;Yue, Runqing;Tie, Shuanggui;Zhang, Lei;Sun, Tao;Yang, Yanjun;Shen, Chenjia

作者机构:

关键词: Auxin;Auxin-response cis-elements;Auxin signaling;Iron deficiency;Rice

期刊名称:JOURNAL OF PLANT BIOLOGY ( 影响因子:2.434; 五年影响因子:2.455 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Iron deficiency is one of the most serious nutrient limiting factors that affect rice plant growth and photosynthesis. Several phytohormones, including auxin, participate in iron uptake and homeostasis. However, how auxin signaling is involved in iron deficiency-induced inhibition of shoot growth and photosynthetic efficiency is largely unknown. The Nipponbare (NIP) seedlings displayed typical chlorotic symptoms, biomass reduction and photosynthesis depression when subjected to iron deficiency. We measured the soluble Fe content in the shoots under different conditions. The soluble Fe content in the shoots under Fe deficiency was increased by 1-naphthoxyaceticacids (1-NOA) treatment and was decreased by 1-naphthaleneacetic acid (NAA) treatment. Blocking (1-NOA treatment) or enhancement (NAA treatment) of auxin signaling also affects photosynthetic parameters under Fe deficiency conditions. Furthermore, rice microarray data (GSE17245 and GSE39429) were used to analyze the relationship between iron deficiency responses and auxin signaling in shoots. Most iron deficiency response gene expression levels in the shoots increased under exogenous auxin treatment, and most auxin early response gene expression levels responded to iron deficiency. It suggested that there is a crosstalk between iron deficiency signaling and auxin signaling. Our results indicated that iron deciency-induced growth inhibition and photosynthesis depression were mediated by systemic auxin signaling.

分类号: Q94

  • 相关文献

[1]Genome-wide identification and expression analysis of auxin response factor gene family in Medicago truncatula. Shen, Chenjia,Sun, Tao,Xu, Luqin,Wang, Huizhong,Yang, Yanjun,Yue, Runqing,Tie, Shuanggui,Zhang, Lei. 2015

[2]Genome-wide identification, expression analysis of GH3 family genes in Medicago truncatula under stress-related hormones and Sinorhizobium meliloti infection. Yang, Yanjun,Sun, Tao,Zeng, Houqing,Wang, Huizhong,Shen, Chenjia,Yue, Runqing,Zhang, Lei,Chen, Wei.

[3]Overexpression of OsPIL15, a phytochromeinteracting factor- like protein gene, represses etiolated seedling growth in rice. Zhou, Jinjun,Liu, Qianqian,Wang, Yingying,Zhang, Shiyong,Cheng, Huimin,Yan, Lihua,Li, Li,Xie, Xianzhi,Zhou, Jinjun,Wang, Yingying,Zhang, Shiyong,Xie, Xianzhi,Liu, Qianqian,Xie, Xianzhi,Zhang, Fang,Chen, Fan. 2014

[4]LARGE ROOT ANGLE1, encoding OsPIN2, is involved in root system architecture in rice. Wang, Lingling,Guo, Mengxue,Li, Yong,Ruan, Wenyuan,Mo, Xiaorong,Wu, Zhongchang,Mao, Chuanzao,Sturrock, Craig J.,Yu, Hao,Yu, Hao,Lu, Chungui,Peng, Jinrong,Ruan, Wenyuan. 2018

[5]Melatonin Regulates Root Architecture by Modulating Auxin Response in Rice. Liang, Chengzhen,Guo, Sandui,Zhang, Rui,Li, Aifu,Yu, Hua,Li, Wenzhen,Liang, Chengzhi,Chu, Chengcai. 2017

[6]Hydrogen Peroxide-Mediated Growth of the Root System Occurs via Auxin Signaling Modification and Variations in the Expression of Cell-Cycle Genes in Rice Seedlings Exposed to Cadmium Stress. Zhao, Feng-Yun,Han, Ming-Ming,Wang, Kai,Zhang, Cheng-Ren,Liu, Tao,Liu, Wen,Zhang, Shi-Yong. 2012

[7]ABA plays essential roles in regulating root growth by interacting with auxin and MAPK signaling pathways and cell-cycle machinery in rice seedlings. Zhao, Feng Yun,Cai, Feng Xiang,Gao, Hua Jian,Wang, Kai,Liu, Tao,Wang, Xue,Zhang, Shi Yong.

[8]MAPKs as a cross point in H2O2 and auxin signaling under combined cadmium and zinc stress in rice roots. Zhao, F. Y.,Han, M. M.,Ren, J.,Hu, F.,Wang, X.,Zhang, S. Y..

[9]Crosstalk between ABA, auxin, MAPK signaling, and the cell cycle in cadmium-stressed rice seedlings. Zhao, Feng Yun,Wang, Kai,Ren, Jing,Liu, Tao,Wang, Xue,Zhang, Shi Yong.

[10]CrMAPK3 regulates the expression of iron-deficiency-responsive genes in Chlamydomonas reinhardtii. Fei, Xiaowen,Yu, Junmei,Li, Yajun,Deng, Xiaodong. 2017

[11]A receptor-like protein RMC is involved in regulation of iron acquisition in rice. Yang, An,Zhang, Wen-Hao,Li, Yansu,Xu, Yunyun,Zhang, Wen-Hao.

[12]Changes in the transcriptomic profiles of maize roots in response to iron-deficiency stress. Li, Yan,Song, Xuejiao,Yin, Zhaohua,Huang, Rong,Zhang, Chunqing,Wang, Nian,Zhao, Fengtao.

[13]Brassinosteroids are involved in response of cucumber (Cucumis sativus) to iron deficiency. Wang, Baolan,Zhang, Wen-Hao,Li, Yansu. 2012

[14]Identification and Expression Analysis of Multiple Ferric Chelate Reductases in Citrus junos. Yao, Li-Xiao,He, Yong-Rui,Fan, Hai-Fang,Xu, Lan-Zhen,Lei, Tian-Gang,Zou, Xiu-Ping,Peng, Ai-Hong,Li, Qiang,Chen, Shan-Chun.

[15]Soybean Fe-S cluster biosynthesis regulated by external iron or phosphate fluctuation. Qin, Lu,Wang, Meihuan,Liang, Xuejiao,Wu, Zhigeng,Zuo, Jia,Feng, Xiangyang,Ye, Hong,Qin, Lu,Chen, Liyu,Lin, Zhihao,Zhao, Jing,Liao, Hong.

[16]Isolation and characterization of PbCS2 gene regulated by iron deficiency and auxin-based systemic signals in Pyrus betulifolia. Li, Xiaoguang,Gao, Ying,Li, Yingli,Zhang, Jianguang,Yan, Shuai,Li, Xiaoguang,Li, Wenzhi,Gao, Ying.

[17]Characterization of transgenic Poncirus trifoliata overexpressing the ferric chelate reductase gene CjFRO2 from Citrus junos. Peng, A. H.,Liu, X. F.,He, Y. R.,Xu, L. Z.,Lei, T. G.,Yao, L. X.,Cao, L.,Chen, S. C..

[18]Genome-Wide Identification, Cloning and Functional Analysis of the Zinc/Iron-Regulated Transporter-Like Protein (ZIP) Gene Family in Trifoliate Orange (Poncirus trifoliata L. Raf.). Fu, Xing-Zheng,Zhou, Xue,Xing, Fei,Ling, Li-Li,Chun, Chang-Pin,Cao, Li,Peng, Liang-Zhi,Fu, Xing-Zheng,Zhou, Xue,Ling, Li-Li,Chun, Chang-Pin,Cao, Li,Peng, Liang-Zhi,Aarts, Mark G. M.. 2017

[19]Differential regulation of proteins in rice (Oryza sativa L.) under iron deficiency. Chen, Lin,Ding, Chengqiang,Xu, Junxu,Wang, Shaohua,Ding, Yanfeng,Zhao, Xiufeng,Mohammad, Alim Abdul.

[20]Arbuscular mycorrhizal fungi increase growth and phenolics synthesis in Poncirus trifoliata under iron deficiency. Li, Jian-Fu,Li, Hang,Zheng, Wen-Jun,Liu, Jian-Fu,Wang, Ming-Yuan,He, Xin-Hua,He, Xin-Hua.

作者其他论文 更多>>

微信小程序