{"page":"155-174","doi":"10.1111/tpj.16218","publication":"Plant Journal","author":[{"full_name":"Jiang, Lihui","last_name":"Jiang","first_name":"Lihui"},{"full_name":"Yao, Baolin","first_name":"Baolin","last_name":"Yao"},{"first_name":"Xiaoyan","last_name":"Zhang","full_name":"Zhang, Xiaoyan"},{"full_name":"Wu, Lixia","first_name":"Lixia","last_name":"Wu"},{"full_name":"Fu, Qijing","first_name":"Qijing","last_name":"Fu"},{"last_name":"Zhao","first_name":"Yiting","full_name":"Zhao, Yiting"},{"full_name":"Cao, Yuxin","last_name":"Cao","first_name":"Yuxin"},{"last_name":"Zhu","first_name":"Ruomeng","full_name":"Zhu, Ruomeng"},{"full_name":"Lu, Xinqi","first_name":"Xinqi","last_name":"Lu"},{"full_name":"Huang, Wuying","first_name":"Wuying","last_name":"Huang"},{"full_name":"Zhao, Jianping","last_name":"Zhao","first_name":"Jianping"},{"first_name":"Kuixiu","last_name":"Li","full_name":"Li, Kuixiu"},{"last_name":"Zhao","first_name":"Shuanglu","full_name":"Zhao, Shuanglu"},{"full_name":"Han, Li","first_name":"Li","last_name":"Han"},{"full_name":"Zhou, Xuan","last_name":"Zhou","first_name":"Xuan"},{"full_name":"Luo, Chongyu","first_name":"Chongyu","last_name":"Luo"},{"full_name":"Zhu, Haiyan","last_name":"Zhu","first_name":"Haiyan"},{"full_name":"Yang, Jing","first_name":"Jing","last_name":"Yang"},{"full_name":"Huang, Huichuan","last_name":"Huang","first_name":"Huichuan"},{"first_name":"Zhengge","last_name":"Zhu","full_name":"Zhu, Zhengge"},{"full_name":"He, Xiahong","first_name":"Xiahong","last_name":"He"},{"id":"4159519E-F248-11E8-B48F-1D18A9856A87","full_name":"Friml, Jiří","first_name":"Jiří","last_name":"Friml","orcid":"0000-0002-8302-7596"},{"full_name":"Zhang, Zhongkai","first_name":"Zhongkai","last_name":"Zhang"},{"first_name":"Changning","last_name":"Liu","full_name":"Liu, Changning"},{"full_name":"Du, Yunlong","first_name":"Yunlong","last_name":"Du"}],"external_id":{"pmid":["37025008 "],"isi":["000971861400001"]},"publication_identifier":{"eissn":["1365-313X"],"issn":["0960-7412"]},"citation":{"short":"L. Jiang, B. Yao, X. Zhang, L. Wu, Q. Fu, Y. Zhao, Y. Cao, R. Zhu, X. Lu, W. Huang, J. Zhao, K. Li, S. Zhao, L. Han, X. Zhou, C. Luo, H. Zhu, J. Yang, H. Huang, Z. Zhu, X. He, J. Friml, Z. Zhang, C. Liu, Y. Du, Plant Journal 115 (2023) 155–174.","ama":"Jiang L, Yao B, Zhang X, et al. Salicylic acid inhibits rice endocytic protein trafficking mediated by OsPIN3t and clathrin to affect root growth. Plant Journal. 2023;115(1):155-174. doi:10.1111/tpj.16218","ista":"Jiang L, Yao B, Zhang X, Wu L, Fu Q, Zhao Y, Cao Y, Zhu R, Lu X, Huang W, Zhao J, Li K, Zhao S, Han L, Zhou X, Luo C, Zhu H, Yang J, Huang H, Zhu Z, He X, Friml J, Zhang Z, Liu C, Du Y. 2023. Salicylic acid inhibits rice endocytic protein trafficking mediated by OsPIN3t and clathrin to affect root growth. Plant Journal. 115(1), 155–174.","chicago":"Jiang, Lihui, Baolin Yao, Xiaoyan Zhang, Lixia Wu, Qijing Fu, Yiting Zhao, Yuxin Cao, et al. “Salicylic Acid Inhibits Rice Endocytic Protein Trafficking Mediated by OsPIN3t and Clathrin to Affect Root Growth.” Plant Journal. Wiley, 2023. https://doi.org/10.1111/tpj.16218.","apa":"Jiang, L., Yao, B., Zhang, X., Wu, L., Fu, Q., Zhao, Y., … Du, Y. (2023). Salicylic acid inhibits rice endocytic protein trafficking mediated by OsPIN3t and clathrin to affect root growth. Plant Journal. Wiley. https://doi.org/10.1111/tpj.16218","ieee":"L. Jiang et al., “Salicylic acid inhibits rice endocytic protein trafficking mediated by OsPIN3t and clathrin to affect root growth,” Plant Journal, vol. 115, no. 1. Wiley, pp. 155–174, 2023.","mla":"Jiang, Lihui, et al. “Salicylic Acid Inhibits Rice Endocytic Protein Trafficking Mediated by OsPIN3t and Clathrin to Affect Root Growth.” Plant Journal, vol. 115, no. 1, Wiley, 2023, pp. 155–74, doi:10.1111/tpj.16218."},"article_type":"original","language":[{"iso":"eng"}],"_id":"12878","intvolume":" 115","volume":115,"year":"2023","isi":1,"acknowledgement":"The authors thank Professor Jianqiang Wu (Kunming Institute of Botany, Chinese Academy of Sciences) for support with phytohormone measurement. Thanks also go to Professor Pieter. B. F. Ouwerkerk (Leiden University) and Professor Jean-Benoit Morel (Plant Health Institute of Montpellier) for provision of the rice lines NB-7B-70 and NB-7B-76 and wild-type NB-61-WT, Professor Zuhua He (Chinese Academy of Sciences) for provision of the rice OsNPR1-RNAi mutant, and Professor Yinong Yang (The Pennsylvania State University) for provision of the rice line NahG. This work was supported by grants from the National Natural Science Foundation of China (Grant Nos. 32260085, 31460453, 31660501, 31860064, 31970609, 31801792 and 31960554), the Key Projects of the Applied Basic Research Plan of Yunnan Province (202301AS070082), the Major Special Program for Scientific Research, Education Department of Yunnan Province (Grant No. ZD2015005), the Start-up fund from Xishuangbanna Tropical Botanical Garden, and ‘Top Talents Program in Science and Technology’ from Yunnan Province, the SRF for ROCS, SEM (Grant No. [2013] 1792), and the Major Science and Technology Project in Yunnan Province (202102AE090042 and 202202AE090036); and the young and middle-aged academic and technical leaders reserve talent program in Yunnan Province (202205AC160076).","type":"journal_article","day":"01","article_processing_charge":"No","month":"07","pmid":1,"date_updated":"2023-08-01T14:16:33Z","publication_status":"published","date_published":"2023-07-01T00:00:00Z","issue":"1","department":[{"_id":"JiFr"}],"abstract":[{"lang":"eng","text":"Salicylic acid (SA) plays important roles in different aspects of plant development, including root growth, where auxin is also a major player by means of its asymmetric distribution. However, the mechanism underlying the effect of SA on the development of rice roots remains poorly understood. Here, we show that SA inhibits rice root growth by interfering with auxin transport associated with the OsPIN3t- and clathrin-mediated gene regulatory network (GRN). SA inhibits root growth as well as Brefeldin A-sensitive trafficking through a non-canonical SA signaling mechanism. Transcriptome analysis of rice seedlings treated with SA revealed that the OsPIN3t auxin transporter is at the center of a GRN involving the coat protein clathrin. The root growth and endocytic trafficking in both the pin3t and clathrin heavy chain mutants were SA insensitivity. SA inhibitory effect on the endocytosis of OsPIN3t was dependent on clathrin; however, the root growth and endocytic trafficking mediated by tyrphostin A23 (TyrA23) were independent of the pin3t mutant under SA treatment. These data reveal that SA affects rice root growth through the convergence of transcriptional and non-SA signaling mechanisms involving OsPIN3t-mediated auxin transport and clathrin-mediated trafficking as key components."}],"oa_version":"None","user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","date_created":"2023-04-30T22:01:06Z","publisher":"Wiley","scopus_import":"1","title":"Salicylic acid inhibits rice endocytic protein trafficking mediated by OsPIN3t and clathrin to affect root growth","quality_controlled":"1","status":"public"}