Medicago AP2-Domain Transcription Factor WRI5a Is a Master Regulator of Lipid Biosynthesis and Transfer during Mycorrhizal Symbiosis 被引量：14

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摘要 Most land plants have evolved a mutualistic symbiosis with arbuscular mycorrhiza (AM)fungi that improve nutrient acquisition from the soil.In return,up to 20% of host plant photosynthate is transferred to the mycorrhizal fungus in the form of lipids and sugar.Nutrient exchange must be regulated by both partners in order to maintain a reliable symbiotic relationship.However,the mechanisms underlying the regulation of lipid transfer from the plantto the AM fungus remain elusive.Here,we show that the Medicago truncatula AP2/EREBP transcription factor WRI5a,and likely its two homologs WRI5b/Erfl and WRI5c,are master regulators of AM symbiosis Controlling lipid transfer and periarbuscular membrane formation.We found that WRI5a binds AW-box cis-regulatory elements in the promoters of M.truncatula STR,which encodes a periarbuscular membrane-localized ABC transporter required for lipid transfer from the plant to the AM fungus, and MtPT4,whichr encodes a phosphate transporter required for phosphate transfer from the AM fungus to the plant.The hairy roots of the M.truncatula wti5a mutant and RNAi composite plants displayed impaired arbuscule formation,whereas overexpression of WRI5a resulted in enhanced expression of STR and MtPT4,suggesting that WRI5a regulates bidirectional symbiotic nutrient exchange.Moreover,we found that WRI5a and RAM1(Required for Arbuscular Mycorrhization symbiosis 1),which encodes a GRASdomain transcription factor,regulate each other at the transcriptional level,forming a positive feedback loop for regulatingAM symbiosis.Collectively,our data suggest a role for WRI5a in controlling bidirectional nutrient exchange and periarbuscular membrane formation via the regulation of genes involved in the biosynthesis of fatty acids and phosphate uptake in arbuscule-containing cells.

作者 Yina Jiang Qiujin Xie Wanxiao Wang Jun Yang Xiaowei Zhang Nan Yu Yun Zhou Ertao Wang

机构地区 National Key Laboratory of Plant Molecular Genetics School of Life Sciences University of Chinese Academy of Sciences College of Life and Environment Sciences Collaborative Innovation Center of Crop Stress Biology

出处《Molecular Plant》 SCIE CAS CSCD 2018年第11期1344-1359,共16页 分子植物（英文版）

基金 the National Key Research and Development Program of China (2016YFA0500502) the National Science Foundation (31730103,31522007) the 973 National Key Basic Research Program in China (2015CB158300) the Shanghai Rising-star Program (18QA1401600).

关键词 MYCORRHIZAL SYMBIOSIS lipid transfer TRANSCRIPTION factor AW box

分类号 Q [生物学]

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参考文献3

1Nutrient Exchange and Regulation in Arbuscular Vlycorrhizal Symbiosis[J].Molecular Plant,2017,10(9):1147-1158. 被引量：31
2Bin Oua,Kang-Quan Yin,Sai-Nan Liu,Yan Yang,Tren Gu,Jennifer Man Wing Hui,Li Zhang,Jin Miao,Youichi Kondou,Minami Matsui,Hong-Ya Gu,Li-Jia Qu.A High-Throughput Screening System for Arabidopsis Transcription Factors and Its Application to Med25-Dependent Transcriptional Regulation[J].Molecular Plant,2011,4(3):546-555. 被引量：20
3Nan Yu,Dexian Luo,Xiaowei Zhang,Junzhong Liu,Wanxiao Wang,Yue Jin,Wentao Dong,Jiyun Liu,Huan Liu,Weibing Yang,Longjun Zeng,Qun Li,Zuhua He,Giles E D Oldroyd,Ertao Wang.A DELLA protein complex controls the arbuscular mycorrhizal symbiosis in plants[J].Cell Research,2014,24(1):130-133. 被引量：9

二级参考文献64

1Lorenzo, O., Piqueras, R., Sanchez-Serrano, J.J., and Solano, R. (2003). ETHYLENE RESPONSE FACTOR1 integrates signals from ethylene and jasmonate pathways in plant defense. Plant Cell. 15, 165-178. 被引量：1
2Miernyk, J.A., and Thelen, J.J. (2008). Biochemical approaches for discovering protein-protein interactions. Plant J. 53, 597-609. 被引量：1
3Mittler, G., Stuhler, T., Santolin, L., and Meisterernst, M. (2003). A novel docking site on Mediator is critical for activation by VP16 in mammalian cells. EMBO J. 22, 6494-6504. 被引量：1
4Nakano, T., Suzuki, K., Fujimura, T., and Shinshi, H. (2006). Genome- wide analysis of the ERF gene family in Arabidopsis and rice. Plant Physiol. 140, 411-432. 被引量：1
5Orlando, V. (2000). Mapping chromosomal proteins in vivo by form- aldehyde-crosslinked-chromatin immunoprecipitation. Trends Biochem. Sci. 25, 99-104. 被引量：1
6Penninckx, I., Eggermont, K., Terras, ER.G., Thomma, B., Samblanx, G.W.D., Buchala, A., Metraux, J.R, Manners, J.M., and Broekaert, W.F. (1996). Pathogen-induced systemic activa- tion of a plant defensin gene in Arabiclopsis follows a salicylic acid-independent pathway. Plant Cell. 8, 2309-2323. 被引量：1
7Penninckx, I.A.M.A., Thomma, B.RH.J., Buchala, A., Metraux, J.-R, and Broekaert, W.F. (1998). Concomitant activation of jasmonate and ethylene response pathways is required for induction of a plant defensin gene in Arabidopsis. Plant Cell. 10, 2103-2114. 被引量：1
8Pruneda-Paz, J.L., Breton, G., Para, A., and Kay, S.A. (2009). A func- tional genomics approach reveals CHE as a component of the Arabidopsis circadian clock. Science. 323, 1481-1485. 被引量：1
9Putterill, J., Robson, E, Lee, K., Simon, R., and Coupland, G. (1995). The CONSTANS gene of Arabidopsis promotes flowering and encodes a protein showing similarities to zinc finger transcrip- tion factors. Cell. 80, 847-857. 被引量：1
10Qu, L.-J., and Zhu, Y.-X. (2006). Transcription factor families in Ara- bidopsis: major progress and outstanding issues for future re- search. Curr. Opin. Plant Biol. 9, 544-549. 被引量：1

共引文献56

1Yiyan Zheng,Haibo Xin,Jinxing Lin,Chun-Ming Liu,Shanjin Huang.An Arabidopsis Class II Formin,AtFH19,Nucleates Actin Assembly,Binds to the Barbed End of Actin Filaments,and Antagonizes the Effect of AtFH1 on Actin Dynamics[J].Journal of Integrative Plant Biology,2012,54(10):800-813. 被引量：7
2张国斌,张喜贤,王云月,杨红玉.拟南芥灰霉病抗性相关转录因子[J].遗传,2013,35(8):971-982. 被引量：2
3Danling Zhu,Zhe Wu,Guangyu Cao,Jigang Li,Jia Wei,Tomohiko Tsuge,Hongya Gua,Takashi Aoyama,Li-Jia Qu.TRANSLUCENT GREEN, an ERF Family Transcription Factor, Controls Water Balance in Arabidopsis by Activating the Expression of Aquaporin Genes[J].Molecular Plant,2014,7(4):601-615. 被引量：8
4王浩,方燕,刘润进,陈应龙.丛枝菌根中养分转运、代谢、利用与调控研究的最新进展[J].植物生理学报,2018,54(11):1645-1658. 被引量：25
5罗骏,巫燕飞,盛锋,杜雪竹.中介因子复合体在植物中的功能研究进展[J].分子植物育种,2018,16(23):7863-7870.
6Baoye Wei,Jinzhe Zhang,Changxu Pang,Hao Yu,Dongshu Guo,Hao Jiang,Mingxin Ding,Zhuoyao Chen,Qing Tao,Hongya Gu,Li-Jia Qu,Genji Qin.The molecular mechanism of SPOROCYTELESS/NOZZLE in controlling Arabidopsis ovule development[J].Cell Research,2015,25(1):121-134. 被引量：10
7Aumnart Chinpongpanich,Srivilai Phean-O-Pas,Mayura Thongchuang,Li-Jia Qu,Teerapong Buaboocha.C-terminal extension of calmodulin-like 3 protein from Oryza sativa L,： interaction with a high mobility group target protein[J].Acta Biochimica et Biophysica Sinica,2015,47(11):880-889.
8Yan Yang,Ling Li,Li-Jia Qu.Plant Mediator complex and its critical functions in transcription regulation[J].Journal of Integrative Plant Biology,2016,58(2):106-118. 被引量：7
9Mingzhe Li,Fengying An,Wenyang Li,Mengdi Ma,Ying Feng,Xing Zhang,Hongwei Guo.DELLA proteins interact with FLC to repress flowering transition[J].Journal of Integrative Plant Biology,2016,58(7):642-655. 被引量：12
10廖德华,刘俊丽,刘健健,杨晓峰,陈潇,顾冕,陈爱群.植物激素响应和调控丛枝菌根共生研究进展[J].植物营养与肥料学报,2016,22(6):1679-1689. 被引量：7

同被引文献196

1李洁,吴明亮,汤远菊,龚昕.有机肥施肥机械的研究现状与发展趋势[J].湖南农业大学学报（自然科学版）,2013,39(S1):97-100. 被引量：43
2陈志鹏,魏源,赵冬安,上官宇先,侯红,曾清如.丛枝菌根真菌对紫花苜蓿锑积累和抗氧化活性的影响[J].农业环境科学学报,2015,34(6):1053-1059. 被引量：8
3孙晓华,罗安程,仇丹.微生物接种对猪粪堆肥发酵过程的影响[J].植物营养与肥料学报,2004,10(5):557-559. 被引量：37
4郭卫华,李波,黄永梅,张新时.不同程度的水分胁迫对中间锦鸡儿幼苗气体交换特征的影响[J].生态学报,2004,24(12):2716-2722. 被引量：53
5沈其荣,余玲,刘兆普,茆泽圣.有机无机肥料配合施用对滨海盐土土壤生物量态氮及土壤供氮特征的影响[J].土壤学报,1994,31(3):287-294. 被引量：63
6彭姗,吕学莲,高峰,李国英,李晖.一种新的棉花黄、枯萎病快速接种方法的研究[J].棉花学报,2008,20(3):174-178. 被引量：39
7王岩,沈其荣,史瑞和,黄东迈.有机、无机肥料施用后土壤生物量C、N、P的变化及N素转化[J].土壤学报,1998,35(2):227-234. 被引量：99
8沈中泉,袁家富.商品性有机肥料工厂化生产研究动态[J].植物营养与肥料学报,1998,4(2):117-122. 被引量：32
9韩斌,孔继君,邹晓明,巩合德.生物固氮研究现状及展望[J].山西农业科学,2009,37(10):86-89. 被引量：27
10Ya Niu,Guo-Zhang Wu,Rui Ye,Wen-Hui Lin,Qiu-Ming Shi,Liang-Jiao Xue,Xiao-Dong Xu,Yao Li,Yu-Guang Du,Hong-Wei Xue.Global Analysis of Gene Expression Profiles in Brassica napus Developing Seeds Reveals a Conserved Lipid Metabolism Regulation with Arabidopsis thaliana[J].Molecular Plant,2009,2(5):1107-1122. 被引量：8

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2葛诗蓓,姜小春,王羚羽,喻景权,周艳虹.园艺植物丛枝菌根抗非生物胁迫的作用机制研究进展[J].园艺学报,2020,47(9):1752-1776. 被引量：24
3Li XUE,Ertao WANG.Arbuscular mycorrhizal associations and the major regulators[J].Frontiers of Agricultural Science and Engineering,2020,7(3):296-306. 被引量：1
4宋放,李子璇,王策,王志静,何利刚,蒋迎春,吴黎明,白福玺.柑橘菌根信号受体蛋白基因LYK2的克隆及功能分析[J].园艺学报,2022,49(2):281-292. 被引量：1
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9陆保福,康文娟,师尚礼,关键,南攀,马瑞宏.豆科植物-根瘤菌固氮系统及其碳氮互作[J].中国草地学报,2023,45(11):119-135. 被引量：4
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2代梦雪,张光群,范旭杪,李博,湛方栋,何永美.胁迫生境深色有隔内生真菌生态分布与功能研究进展[J].应用与环境生物学报,2020,26(3):722-729. 被引量：19
3肖华翠,杨柳明,李一清.磷肥施用对土壤呼吸及其组分影响的研究进展[J].福建农业科技,2020(7):6-14. 被引量：3
4刘旭艳,胡宇坤.大兴安岭典型森林沼泽植物叶片和细根碳氮磷化学计量特征[J].应用生态学报,2020,31(10):3385-3394. 被引量：17
5高翔,范晓旭,张淑贞,宋福强.除草剂施用对农田丛枝菌根(AM)真菌影响的研究进展[J].中国农学通报,2020,36(27):129-134. 被引量：1
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1Ju-Xian Song,Yu Zeng,Xing Yu,Liang-Feng Liu,Lei-Lei Chen,Jia-Hong Lu,Ying-Yu Huang,Ming-Zhong Wang,Hong-Jie Zhang,Min Li.A NOVEL DIRECT ACTIVATOR OF TFEB PROMOTES AUTOPHAGY AND LYSOSOME BIOGENESIS AND PROTECTS NEURONS IN THE BRAIN[J].World Journal of Traditional Chinese Medicine,2015,1(4):97-97.
2Lin ZHOU,Mia SHU,Shang GUO,Hua WANG,Xiaojie NAN.Prospects for Development of Edible and Medicinal Mycorrhizal Fungus in Shanxi Province[J].Medicinal Plant,2018,9(2):5-7.
3Land Plants First Appeared about 500 Million Years Ago[J].Bulletin of the Chinese Academy of Sciences,2018,32(1):54-54.
4Jing Hu,Hao Qian,Yuanchao Xue,Xiang-Dong Fu.PTB/nPTB： master regulators of neuronal fate in mammals[J].Biophysics Reports,2018,4(4):204-214. 被引量：5
5李建伟,杨珺凯,贾博为,孙明哲,刘瑀,殷奎德,孙晓丽.大豆基因组中OSCA基因家族的进化和表达分析[J].中国油料作物学报,2017,39(5):589-599. 被引量：13
6Giorgia Sollai,Maurizio Biolchini,Roberto Crnjar.Taste sensitivity and divergence in host plant acceptance between adult females and larvae of Papilio hospiton[J].Insect Science,2018,25(5):809-822. 被引量：1
7郑春荣.第一章德国欧洲政策的新变化及其影响[J].中国社会科学院国际研究学部集刊,2013(1):180-200.
8许思佳,颜斌,董京祥,武丹阳,李慧玉.白桦BpBEE1基因启动子的表达特性分析[J].植物研究,2018,38(2):247-253. 被引量：3
9徐洪雨,高茜,李振松,仝宗永,何峰,李向林.控水处理对两种温度节律下苜蓿耐寒性的影响[J].草地学报,2018,26(6):1508-1515. 被引量：2
10闫青地,赵亚林,张昊,高静,高梦烛,王倩,王蕊,王凤茹,董金皋.拟南芥仅含START结构域亚家族基因特性与功能分析[J].中国农业科学,2017,50(17):3274-3285.

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