南方科技大学知识苑(SUSTech KC): Root twisting drives halotropism via stress-induced microtubule reorientation

题名	Root twisting drives halotropism via stress-induced microtubule reorientation
作者	Yu，Bo 1; Zheng，Wenna 2; Xing，Lu 3; Zhu，Jian Kang1,4,5 ; Persson，Staffan 2,6,7; Zhao，Yang 1
通讯作者	Zhao，Yang
发表日期	2022-10-24
DOI	10.1016/j.devcel.2022.09.012
发表期刊	DEVELOPMENTAL CELL 影响因子和分区
ISSN	1534-5807
EISSN	1878-1551
卷号	57 期号:20页码:2412-2425.e6
摘要	Plants have evolved signaling mechanisms that guide growth away from adverse environments that can cause yield losses. Root halotropism is a sodium-specific negative tropism that is crucial for surviving and thriving under high salinity. Although root halotropism was discovered some years ago, the underlying molecular and cellular mechanisms remain unknown. Here, we show that abscisic acid (ABA)-mediated root twisting determines halotropism in Arabidopsis. An ABA-activated SnRK2 protein kinase (SnRK2.6) phosphorylates the microtubule-associated protein SP2L at Ser406, which induces a change in the anisotropic cell expansion at the root transition zone and is required for root twisting during halotropism. Salt stress triggers SP2L-mediated cortical microtubule reorientation, which guides cellulose microfibril patterns. Our findings thus outline the molecular mechanism of root halotropism and indicate that anisotropic cell expansion through microtubule reorientation and microfibril deposition has a central role in mediating tropic responses.
关键词	Abscisic Acid Anisotropic Cell Expansion CesA Halotropism Microtubule Salt Avoidance Salt Stress SnRK2. SP2L Tropism
相关链接	[Scopus记录]
收录类别	SCI
语种	英语
重要成果	NI论文
学校署名	其他
资助项目	Science and Technology Commission of Shanghai Municipality[22ZR1481400] ; National Natural Science Foundation of China[31970293] ; National Natural Science Foundation of China[32100237] ; Lundbeckfonden[R346-2020-1546]
ESI学科分类	MOLECULAR BIOLOGY & GENETICS
Scopus记录号	2-s2.0-85140093247
来源库	Scopus
引用统计	被引频次[WOS]：24
成果类型	期刊论文
条目标识符	http://sustech.caswiz.com/handle/2SGJ60CL/406895
专题	南方科技大学医学院_前沿生物技术研究院生命科学学院
作者单位	1.Shanghai Center for Plant Stress Biology,CAS Center for Excellence in Molecular Plant Sciences,Chinese Academy of Sciences,Shanghai,200032,China 2.Department of Plant & Environmental Sciences,University of Copenhagen,Frederiksberg C,1871,Denmark 3.Department of Horticulture and Landscape Architecture,Purdue University,West Lafayette,47907,United States 4.Institute of Advanced Biotechnology and School of Life Sciences,Southern University of Science and Technology,Shenzhen,518055,China 5.Center for Advanced Bioindustry Technologies,Chinese Academy of Agricultural Sciences,Beijing,100081,China 6.Copenhagen Plant Science Center,University of Copenhagen,Frederiksberg C,1871,Denmark 7.Joint International Research Laboratory of Metabolic & Developmental Sciences,State Key Laboratory of Hybrid Rice,SJTU-University of Adelaide Joint Centre for Agriculture and Health,School of Life Sciences and Biotechnology,Shanghai Jiao Tong University,Shanghai,China
推荐引用方式 GB/T 7714	Yu，Bo,Zheng，Wenna,Xing，Lu,et al. Root twisting drives halotropism via stress-induced microtubule reorientation[J]. DEVELOPMENTAL CELL,2022,57(20):2412-2425.e6.
APA	Yu，Bo,Zheng，Wenna,Xing，Lu,Zhu，Jian Kang,Persson，Staffan,&Zhao，Yang.(2022).Root twisting drives halotropism via stress-induced microtubule reorientation.DEVELOPMENTAL CELL,57(20),2412-2425.e6.
MLA	Yu，Bo,et al."Root twisting drives halotropism via stress-induced microtubule reorientation".DEVELOPMENTAL CELL 57.20(2022):2412-2425.e6.