TCP转录因子与激素信号相互作用研究进展
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摘要
TCP家族是一类植物特有的转录因子,TCP转录因子都含有一个保守的bHLH结构域,它是由59个残基组成的碱性螺旋-环-螺旋结构。在植物进化过程中被分为了Ⅰ类TCP和Ⅱ类TCP,在拟南芥中有24个TCP转录因子,它们与细胞增殖和生长密切相关,也对分生组织和侧生器官的生长模式有重要影响。本研究主要分析总结TCP转录因子与激素信号转导途径中关键蛋白的互作,以及它们在赤霉素,细胞分裂素,脱落酸,茉莉酸,油菜类固醇,独脚金内酯,生长素等激素信号调控植物细胞增殖、休眠、衰老、防御、茎分枝等过程中发挥的关键作用。了解TCP和激素信号传导之间的互作,为以后更好地解开它们在植物发育和进化控制中的确切作用提供研究思路。
The TCP family i s a type of plant-specific transcription factors. TCP transcription factors contain a conserved b HLH domain, which is an alkaline helix-ring-helix structure composed of 59 residues. The TCP family has been classified into class Ⅰ TCP and class ⅡTCP during the evolution of plant. There are 24 TCP transcription factors in Arabidopsis thaliana, which are closely related to cell proliferation and growth, and also have important effects on the growth pattern of meristem and lateral organs. This research mainly analyzed and summarized the interaction of TCP transcription factors with key proteins in the hormonal signal transduction pathway, and their important role in the process of plant cell proliferation, dormancy, senescence, defense and shoot branching controlled by hormone signals, such as gibberellins, cytokinins, abscisic acid, jasmonic acid, rape steroids,strigolactones, and auxin. Understanding the interaction between TCPs and hormone signaling would help us unravel their exact role in plant development and evolution control.
The TCP family i s a type of plant-specific transcription factors. TCP transcription factors contain a conserved b HLH domain, which is an alkaline helix-ring-helix structure composed of 59 residues. The TCP family has been classified into class Ⅰ TCP and class ⅡTCP during the evolution of plant. There are 24 TCP transcription factors in Arabidopsis thaliana, which are closely related to cell proliferation and growth, and also have important effects on the growth pattern of meristem and lateral organs. This research mainly analyzed and summarized the interaction of TCP transcription factors with key proteins in the hormonal signal transduction pathway, and their important role in the process of plant cell proliferation, dormancy, senescence, defense and shoot branching controlled by hormone signals, such as gibberellins, cytokinins, abscisic acid, jasmonic acid, rape steroids,strigolactones, and auxin. Understanding the interaction between TCPs and hormone signaling would help us unravel their exact role in plant development and evolution control.
引文
Adenot X.,Elmayan T.,Lauressergues D.,Boutet S.,BouchéN.,Gasciolli V.,and Vaucheret H.,2006,DRB4-dependent TAS3 trans-acting si RNAs control leaf morphology through AGO7,Curr.Biol.,16(9):927-932
Ballester P.,Navarretegómez M.,Carbonero P.,Onatesánchez L.,and Ferrándiz C.,2015,Leaf expansion in Arabidopsis is controlled by a TCP-NGA regulatory module likely conserved in distantly related species,Physiol.Plant,155(1):21-32
Braun N.,Germain A.D.S.,Pillot J.P.,Boutet-Mercey S.,Dalmais M.,Antoniadi I.,Xin L.,Maia-Grondard A.,Signor C.L.,and Bouteiller N.,2012,The pea TCP transcription factor Ps BRC1 acts downstream of strigolactones to control shoot branching,Plant Physiol.,158(1):225-238
Cheva lier F.,Nieminen K.,Chagoyen M.,Hardtke C.S.,and Cubas P.,2014,Strigolactone promotes degradation of DWARF14,anα/βhydrolase essential for strigolactone signaling in Arabidopsis,Plant Cell,26(3):1134-1150
Danisman S.,and Immink R.G.H.,2012,Arabidopsis classⅠand classⅡTCP transcription factors regulate jasmonic acid metabolism and leaf development antagonistically,Plant Physiol.,159(4):1511-1523
Das G.M.,Aggarwal P.,and Nath U.,2015,CINCINNATA in Antirrhinum majus directly modulates genes involved in cytokinin and auxin signaling,New Phytologist,204(4):901-912
Davière J.M.,and Achard P.,2016,A pivotal role of DELLAs in regulating multiple hormone signals,Mol.Plant,9(1):10-20
Davière J.M.,Wild M.,Regnault T.,Baumberger N.,Eisler H.,Genschik P.,and Achard P.,2014,Class I TCP-DELLA interactions in inflorescence shoot apex determine plant height,Curr.Biol.,24(16):1923-1928
Efroni I.,Han S.K.,Kim H.J.,Wu M.F.,Steiner E.,Birnbaum K.D.,Hong J.C.,Eshed Y.,and Wagner D.,2013,Regulation of leaf maturation by chromatin-mediated modulation of cytokinin responses,Dev.Cell,24(4):438-445
Feng Y.L.,Xiong Y.,Zhang J.,Chen X.N.,Guo J.R.,and Ma C.,2018,Role of TCP transcription factors in plant development and biotic stress responses,Zhiwu Shengli Xuebao(Plant Physiology Journal),54(5):709-717(冯雅岚,熊瑛,张均,陈鲜妮,郭静茹,马超,2018,TCP转录因子在植物发育和生物胁迫响应中的作用,植物生理学报,54(5):709-717)
Feng Z.J.,Xu S.C.,Liu N.,Zhang G.W.,Hu Q.Z.,and Gong Y.M.,2018,Molecular mechanisms and applications of TCPtranscription factors in plants,Zhiwu Yichuan Ziyuan Xuebao(Journal of Plant Genetic Resources),(1):112-121(冯志娟,徐盛春,刘娜,张古文,胡齐赞,龚亚明,2018,植物TCP转录因子的作用机理及其应用研究进展,植物遗传资源学报,(1):112-121)
Finkelstein R.R.,and Lynch T.J.,2000,The Arabidopsis abscisic acid response gene ABI5 encodes a basic leucine zipper transcription factor,Plant Cell,12(4):599-609
González-Grandío E.,Poza-Carrión C.,Sorzano C.O.,and Cubas P.,2013,BRANCHED1 promotes axillary bud dormancy in response to shade in Arabidopsis,Plant Cell,25(3):834-850
Guan P.,Wang R.,Nacry P.,Breton G.,Kay S.A.,Pruneda-Paz J.L.,Davani A.,and Crawford N.M.,2014,Nitrate foraging by Arabidopsis roots is mediated by the transcription factor TCP20 through the systemic signaling pathway,Proc.Natl.Acad.Sci.USA,111(42):15267-15272
Guo S.,Xu Y.,Liu H.,Mao Z.,Zhang C.,Ma Y.,Zhang Q.,Meng Z.,and Chong K.,2013,The interaction between OsMADS57 and Os TB1 modulates rice tillering via DWARF14,Nat.Commun.,4(3):1566
Guo Z.,Fujioka S.,Blancaflor E.B.,Miao S.,Gou X.,and Li J.,2010,TCP1 modulates brassinosteroid biosynthesis by regulating the expression of the key biosynthetic gene DWARF4in Arabidopsis thaliana,Plant Cell,22(4):1161-1173
Ignacio R.S.,and Detlef W.,2013,Coordination of flower maturation by a regulatory circuit of three microRNAs,PLoS Genetics,9(3):e1003374
Jasinski S.,Piazza P.,Craft J.,Hay A.,Woolley L.,Rieu I.,Phillips A.,Hedden P.,and Tsiantis M.,2005,KNOX action in Arabidopsis is mediated by coordinate regulation of cytokinin and gibberellin activities,Curr.Biol.,15(17):1560-1565
Ji Z.R.,Gu Y.B.,Dong Q.L.,Chi F.M.,Qiao Z.,Xu C.N.,Zhang J.X.,and Zhou Z.S.,2015,Genome-wide identification and analysis of TCP gene family in grape,Jiyinzuxue Yu Yingyong Shengwuxue(Genomics and Applied Biology),35(10):2194-2199(冀志蕊,谷彦冰,董庆龙,迟福梅,乔壮,徐成楠,张俊祥,周宗山,2015,葡萄TCP基因家族全基因组鉴定和分析,基因组学与应用生物学,35(10):2194-2199)
Kim S.H.,Son G.H.,Bhattacharjee S.,Kim H.J.,Nam J.C.,Nguyen P.D.,Hong J.C.,and Gassmann W.,2014,The Arabidopsis immune adaptor SRFR1 interacts with TCP transcription factors that redundantly contribute to effector-triggered immunity,Plant J.,78(6):978-989
Kosuke M.,Hiromu K.,Naoko Y.,Mikihisa U.,Luo L.,Kaoru K.,Atsushi H.,Kotomi U.,Tadao A.,and Shinjiro Y.,2010,FINE CULM1(FC1)works downstream of strigolactones to inhibit the outgrowth of axillary buds in rice,Plant Cell Physiol.,51(7):1127-1135
Koyama T.,and Ohme-Takagi M.,2010,TCP transcription factors regulate the activities of ASYMMETRIC LEAVES1and miR164,as well as the auxin response,during differentiation of leaves in Arabidopsis,Plant Cell,22(11):3574-3588
Koyama T.,Sato F.,and Ohme-Takagi M.,2010,A role of TCP1in the longitudinal elongation of leaves in Arabidopsis,Biosci.Biotechnol.Biochem,74(10):2145-2147
Lazar G.,and Goodman H.M.,2006,MAX1,a regulator of the flavonoid pathway,controls vegetative axillary bud outgrowth in Arabidopsis,Proc.Natl.Acad.Sci.USA,103(2):472-476
Li S.,and Zachgo S.,2013,TCP3 interacts with R2R3-MYBproteins,promotes flavonoid biosynthesis and negatively regulates the auxin response in Arabidopsis thaliana,Plant J.,76(6):901-913
Liu L.J.,and Gao H.,2016,Research progress on the family of TCP genes,Shengwu Jishu Tongbao(Biotechnology Bulletin),32(9):14-22(刘丽娟,高辉,2016,TCP家族基因研究进展,生物技术通报,32(9):14-22)
Lopez J.A.,Sun Y.,Blair P B.,Mukhtar M.S.,2015,TCP three-way handshake:linking developmental processes with plant immunity,Trends Plant Sci.,20(4):238-245
Lucero L.E.,Uberti-Manassero N.G.,Arce A.L.,Colombatti F.,Alemano S.G.,and Gonzalez D.H.,2015,TCP15 modulates cytokinin and auxin responses during gynoecium development in Arabidopsis,Plant J.,84(2):267-282
Mukhopadhyay P.,Tyagi A.K.,and Tyagi A.K.,2015,Os TCP19influences developmental and abiotic stress signaling by modulating ABI4-mediated pathways,Sci.Rep.,5:9998
Pieterse C.M.J.,Does D.V.D.,Zamioudis C.,Leonreyes A.,and Wees S.C.M.V.,2012,Hormonal modulation of plant immunity,Annu.Rev.Cell Dev.Biol.,28(1):489-521
Reinhardt B.,Hanggi E.,Müller S.,Bauch M.,Wyrzykowska J.,Kerstetter R.,Poethig S.,and Fleming A.J.,2007,Restoration of DWF4 expression to the leaf margin of a dwf4 mutant is sufficient to restore leaf shape but not size:the role of the margin in leaf development,Plant J.,52(6):1094-1104
Resentini F.,Felipo-Benavent A.,Colombo L.,Blázquez M.A.,AlabadíD.,and Masiero S.,2015,TCP14 and TCP15 mediate the promotion of seed germination by gibberellins in Arabidopsis thaliana,Mol.Plant,8(3):482-485
Rueda-Romero P.,Barrero-Sicilia C.,Gómez-Cadenas A.,Carbonero P.,and O觡ate-Sánchez L.,2012,Arabidopsis thaliana DOF6 negatively affects germination in non-after-ripened seeds and interacts with TCP14,J.Exp.Bot.,63(5):1937-1949
Sarvepalli K.,and Nath U.,2011a,Hyper-activation of the TCP4transcription factor in Arabidopsis thaliana accelerates multiple aspects of plant maturation,Plant J.,67(4):595-607
Sarvepalli K.,and Nath U.,2011b,Interaction of TCP4-mediated growth module with phytohormones,Plant Signal.Behav.,6(10):1440-1443
Schommer C.,Palatnik J.F.,Aggarwal P.,Chételat A.,Cubas P.,Farmer E.E.,Nath U.,and Weigel D.,2008,Control of jasmonate biosynthesis and senescence by mi R319 targets,PLoS Biol.,6(9):e230
Shi P.,Guy K.M.,Wu W.,Fang B.S.,Yang J.H.,Zhang M.F.,and Hu Z.Y.,2016,Genome-wide identification and expression analysis of the Cl TCP transcription factors in Citrullus lanatus,BMC Plant Biol.,16:85-97
Steiner E.,and Weiss D.,2012,The Arabidopsis O-linked N-acetylglucosamine transferase SPINDLY interacts with classⅠTCPs to facilitate cytokinin responses in leaves and flowers,Plant Cell,24(1):96-108
Takuya Y.,Yasunari F.,Hiroko S.,Satoshi K.,Kyonoshin M.,Junya M.,Kazuo S.,and Kazuko Y.S.,2010,AREB1,AREB2,and ABF3 are master transcription factors that cooperatively regulate ABRE-dependent ABA signaling involved in drought stress tolerance and require ABA for full activation,Plant J.,61(4):672-685
Tatematsu K.,Nakabayashi K.,Kamiya Y.,and Nambara E.,2010,Transcription factor At TCP14 regulates embryonic growth potential during seed germination in Arabidopsis thaliana,Plant J.,53(1):42-52
Uberti-Manassero N.G.,Lucero L.E.,Viola I.L.,Vegetti A.C.,and Gonzalez D.H.,2012,The classⅠprotein At TCP15modulates plant development through a pathway that overlaps with the one affected by CIN-like TCP proteins,J.Exp.Bot.,63(2):809-823
Wang L.,Wang B.,Jiang L.,Liu X.,Li X.,Lu Z.,Meng X.,Wang Y.,Smith S.M.,and Li J.,2015a,Strigolactone signaling in Arabidopsis regulates shoot development by targeting D53-Like SMXL repressor proteins for ubiquitination and degradation,Plant Cell,27(11):3128-3142
Wang X.,Gao J.,Zhu Z.,Dong X.,Wang X.,Ren G.,Zhou X.,and Kuai B.,2015b,TCP transcription factors are critical for the coordinated regulation of ISOCHORISMATE SYN-THASE 1 expression in Arabidopsis thaliana,Plant J.,82:151-162
Wang Z.C.,Cui D.Y.,and Yu-Xin H.U.,2017,CIN-like TCPtranscription factors:the key regulators of plant development and immunity,Progress in Biochemistry and Biophysics,44(3):215-223
Yanai O.,Shani E.,Russ D.,and Ori N.,2011,Gibberellin partly mediates LANCEOLATE activity in tomato,Plant J.,68(4):571-582
Zapater J.M.,2001,Ancient asymmetries in the evolution of flowers,Curr.Biol.,11(13):1050-1052
Zhang C.L.,2012,Functional analyses of two transcription factors,TCP15 and TCP22,from Arabidopsis thaliana,Thesis for M.S.,Lanzhou University,Supervisor:Li J.,pp.47-49(张春雷,2012,拟南芥TCP15、TCP22基因功能的研究,硕士学位论文,兰州大学,导师:黎家,pp.47-49)
Zhou M.,Li D.,Li Z.,Hu Q.,Yang C.,Zhu L.,and Luo H.,2014,Constitutive expression of a miR319 gene alters plant development and enhances salt and drought tolerance in transgenic creeping bentgrass,Plant Physiol.,161(4):1375-1391
Ballester P.,Navarretegómez M.,Carbonero P.,Onatesánchez L.,and Ferrándiz C.,2015,Leaf expansion in Arabidopsis is controlled by a TCP-NGA regulatory module likely conserved in distantly related species,Physiol.Plant,155(1):21-32
Braun N.,Germain A.D.S.,Pillot J.P.,Boutet-Mercey S.,Dalmais M.,Antoniadi I.,Xin L.,Maia-Grondard A.,Signor C.L.,and Bouteiller N.,2012,The pea TCP transcription factor Ps BRC1 acts downstream of strigolactones to control shoot branching,Plant Physiol.,158(1):225-238
Cheva lier F.,Nieminen K.,Chagoyen M.,Hardtke C.S.,and Cubas P.,2014,Strigolactone promotes degradation of DWARF14,anα/βhydrolase essential for strigolactone signaling in Arabidopsis,Plant Cell,26(3):1134-1150
Danisman S.,and Immink R.G.H.,2012,Arabidopsis classⅠand classⅡTCP transcription factors regulate jasmonic acid metabolism and leaf development antagonistically,Plant Physiol.,159(4):1511-1523
Das G.M.,Aggarwal P.,and Nath U.,2015,CINCINNATA in Antirrhinum majus directly modulates genes involved in cytokinin and auxin signaling,New Phytologist,204(4):901-912
Davière J.M.,and Achard P.,2016,A pivotal role of DELLAs in regulating multiple hormone signals,Mol.Plant,9(1):10-20
Davière J.M.,Wild M.,Regnault T.,Baumberger N.,Eisler H.,Genschik P.,and Achard P.,2014,Class I TCP-DELLA interactions in inflorescence shoot apex determine plant height,Curr.Biol.,24(16):1923-1928
Efroni I.,Han S.K.,Kim H.J.,Wu M.F.,Steiner E.,Birnbaum K.D.,Hong J.C.,Eshed Y.,and Wagner D.,2013,Regulation of leaf maturation by chromatin-mediated modulation of cytokinin responses,Dev.Cell,24(4):438-445
Feng Y.L.,Xiong Y.,Zhang J.,Chen X.N.,Guo J.R.,and Ma C.,2018,Role of TCP transcription factors in plant development and biotic stress responses,Zhiwu Shengli Xuebao(Plant Physiology Journal),54(5):709-717(冯雅岚,熊瑛,张均,陈鲜妮,郭静茹,马超,2018,TCP转录因子在植物发育和生物胁迫响应中的作用,植物生理学报,54(5):709-717)
Feng Z.J.,Xu S.C.,Liu N.,Zhang G.W.,Hu Q.Z.,and Gong Y.M.,2018,Molecular mechanisms and applications of TCPtranscription factors in plants,Zhiwu Yichuan Ziyuan Xuebao(Journal of Plant Genetic Resources),(1):112-121(冯志娟,徐盛春,刘娜,张古文,胡齐赞,龚亚明,2018,植物TCP转录因子的作用机理及其应用研究进展,植物遗传资源学报,(1):112-121)
Finkelstein R.R.,and Lynch T.J.,2000,The Arabidopsis abscisic acid response gene ABI5 encodes a basic leucine zipper transcription factor,Plant Cell,12(4):599-609
González-Grandío E.,Poza-Carrión C.,Sorzano C.O.,and Cubas P.,2013,BRANCHED1 promotes axillary bud dormancy in response to shade in Arabidopsis,Plant Cell,25(3):834-850
Guan P.,Wang R.,Nacry P.,Breton G.,Kay S.A.,Pruneda-Paz J.L.,Davani A.,and Crawford N.M.,2014,Nitrate foraging by Arabidopsis roots is mediated by the transcription factor TCP20 through the systemic signaling pathway,Proc.Natl.Acad.Sci.USA,111(42):15267-15272
Guo S.,Xu Y.,Liu H.,Mao Z.,Zhang C.,Ma Y.,Zhang Q.,Meng Z.,and Chong K.,2013,The interaction between OsMADS57 and Os TB1 modulates rice tillering via DWARF14,Nat.Commun.,4(3):1566
Guo Z.,Fujioka S.,Blancaflor E.B.,Miao S.,Gou X.,and Li J.,2010,TCP1 modulates brassinosteroid biosynthesis by regulating the expression of the key biosynthetic gene DWARF4in Arabidopsis thaliana,Plant Cell,22(4):1161-1173
Ignacio R.S.,and Detlef W.,2013,Coordination of flower maturation by a regulatory circuit of three microRNAs,PLoS Genetics,9(3):e1003374
Jasinski S.,Piazza P.,Craft J.,Hay A.,Woolley L.,Rieu I.,Phillips A.,Hedden P.,and Tsiantis M.,2005,KNOX action in Arabidopsis is mediated by coordinate regulation of cytokinin and gibberellin activities,Curr.Biol.,15(17):1560-1565
Ji Z.R.,Gu Y.B.,Dong Q.L.,Chi F.M.,Qiao Z.,Xu C.N.,Zhang J.X.,and Zhou Z.S.,2015,Genome-wide identification and analysis of TCP gene family in grape,Jiyinzuxue Yu Yingyong Shengwuxue(Genomics and Applied Biology),35(10):2194-2199(冀志蕊,谷彦冰,董庆龙,迟福梅,乔壮,徐成楠,张俊祥,周宗山,2015,葡萄TCP基因家族全基因组鉴定和分析,基因组学与应用生物学,35(10):2194-2199)
Kim S.H.,Son G.H.,Bhattacharjee S.,Kim H.J.,Nam J.C.,Nguyen P.D.,Hong J.C.,and Gassmann W.,2014,The Arabidopsis immune adaptor SRFR1 interacts with TCP transcription factors that redundantly contribute to effector-triggered immunity,Plant J.,78(6):978-989
Kosuke M.,Hiromu K.,Naoko Y.,Mikihisa U.,Luo L.,Kaoru K.,Atsushi H.,Kotomi U.,Tadao A.,and Shinjiro Y.,2010,FINE CULM1(FC1)works downstream of strigolactones to inhibit the outgrowth of axillary buds in rice,Plant Cell Physiol.,51(7):1127-1135
Koyama T.,and Ohme-Takagi M.,2010,TCP transcription factors regulate the activities of ASYMMETRIC LEAVES1and miR164,as well as the auxin response,during differentiation of leaves in Arabidopsis,Plant Cell,22(11):3574-3588
Koyama T.,Sato F.,and Ohme-Takagi M.,2010,A role of TCP1in the longitudinal elongation of leaves in Arabidopsis,Biosci.Biotechnol.Biochem,74(10):2145-2147
Lazar G.,and Goodman H.M.,2006,MAX1,a regulator of the flavonoid pathway,controls vegetative axillary bud outgrowth in Arabidopsis,Proc.Natl.Acad.Sci.USA,103(2):472-476
Li S.,and Zachgo S.,2013,TCP3 interacts with R2R3-MYBproteins,promotes flavonoid biosynthesis and negatively regulates the auxin response in Arabidopsis thaliana,Plant J.,76(6):901-913
Liu L.J.,and Gao H.,2016,Research progress on the family of TCP genes,Shengwu Jishu Tongbao(Biotechnology Bulletin),32(9):14-22(刘丽娟,高辉,2016,TCP家族基因研究进展,生物技术通报,32(9):14-22)
Lopez J.A.,Sun Y.,Blair P B.,Mukhtar M.S.,2015,TCP three-way handshake:linking developmental processes with plant immunity,Trends Plant Sci.,20(4):238-245
Lucero L.E.,Uberti-Manassero N.G.,Arce A.L.,Colombatti F.,Alemano S.G.,and Gonzalez D.H.,2015,TCP15 modulates cytokinin and auxin responses during gynoecium development in Arabidopsis,Plant J.,84(2):267-282
Mukhopadhyay P.,Tyagi A.K.,and Tyagi A.K.,2015,Os TCP19influences developmental and abiotic stress signaling by modulating ABI4-mediated pathways,Sci.Rep.,5:9998
Pieterse C.M.J.,Does D.V.D.,Zamioudis C.,Leonreyes A.,and Wees S.C.M.V.,2012,Hormonal modulation of plant immunity,Annu.Rev.Cell Dev.Biol.,28(1):489-521
Reinhardt B.,Hanggi E.,Müller S.,Bauch M.,Wyrzykowska J.,Kerstetter R.,Poethig S.,and Fleming A.J.,2007,Restoration of DWF4 expression to the leaf margin of a dwf4 mutant is sufficient to restore leaf shape but not size:the role of the margin in leaf development,Plant J.,52(6):1094-1104
Resentini F.,Felipo-Benavent A.,Colombo L.,Blázquez M.A.,AlabadíD.,and Masiero S.,2015,TCP14 and TCP15 mediate the promotion of seed germination by gibberellins in Arabidopsis thaliana,Mol.Plant,8(3):482-485
Rueda-Romero P.,Barrero-Sicilia C.,Gómez-Cadenas A.,Carbonero P.,and O觡ate-Sánchez L.,2012,Arabidopsis thaliana DOF6 negatively affects germination in non-after-ripened seeds and interacts with TCP14,J.Exp.Bot.,63(5):1937-1949
Sarvepalli K.,and Nath U.,2011a,Hyper-activation of the TCP4transcription factor in Arabidopsis thaliana accelerates multiple aspects of plant maturation,Plant J.,67(4):595-607
Sarvepalli K.,and Nath U.,2011b,Interaction of TCP4-mediated growth module with phytohormones,Plant Signal.Behav.,6(10):1440-1443
Schommer C.,Palatnik J.F.,Aggarwal P.,Chételat A.,Cubas P.,Farmer E.E.,Nath U.,and Weigel D.,2008,Control of jasmonate biosynthesis and senescence by mi R319 targets,PLoS Biol.,6(9):e230
Shi P.,Guy K.M.,Wu W.,Fang B.S.,Yang J.H.,Zhang M.F.,and Hu Z.Y.,2016,Genome-wide identification and expression analysis of the Cl TCP transcription factors in Citrullus lanatus,BMC Plant Biol.,16:85-97
Steiner E.,and Weiss D.,2012,The Arabidopsis O-linked N-acetylglucosamine transferase SPINDLY interacts with classⅠTCPs to facilitate cytokinin responses in leaves and flowers,Plant Cell,24(1):96-108
Takuya Y.,Yasunari F.,Hiroko S.,Satoshi K.,Kyonoshin M.,Junya M.,Kazuo S.,and Kazuko Y.S.,2010,AREB1,AREB2,and ABF3 are master transcription factors that cooperatively regulate ABRE-dependent ABA signaling involved in drought stress tolerance and require ABA for full activation,Plant J.,61(4):672-685
Tatematsu K.,Nakabayashi K.,Kamiya Y.,and Nambara E.,2010,Transcription factor At TCP14 regulates embryonic growth potential during seed germination in Arabidopsis thaliana,Plant J.,53(1):42-52
Uberti-Manassero N.G.,Lucero L.E.,Viola I.L.,Vegetti A.C.,and Gonzalez D.H.,2012,The classⅠprotein At TCP15modulates plant development through a pathway that overlaps with the one affected by CIN-like TCP proteins,J.Exp.Bot.,63(2):809-823
Wang L.,Wang B.,Jiang L.,Liu X.,Li X.,Lu Z.,Meng X.,Wang Y.,Smith S.M.,and Li J.,2015a,Strigolactone signaling in Arabidopsis regulates shoot development by targeting D53-Like SMXL repressor proteins for ubiquitination and degradation,Plant Cell,27(11):3128-3142
Wang X.,Gao J.,Zhu Z.,Dong X.,Wang X.,Ren G.,Zhou X.,and Kuai B.,2015b,TCP transcription factors are critical for the coordinated regulation of ISOCHORISMATE SYN-THASE 1 expression in Arabidopsis thaliana,Plant J.,82:151-162
Wang Z.C.,Cui D.Y.,and Yu-Xin H.U.,2017,CIN-like TCPtranscription factors:the key regulators of plant development and immunity,Progress in Biochemistry and Biophysics,44(3):215-223
Yanai O.,Shani E.,Russ D.,and Ori N.,2011,Gibberellin partly mediates LANCEOLATE activity in tomato,Plant J.,68(4):571-582
Zapater J.M.,2001,Ancient asymmetries in the evolution of flowers,Curr.Biol.,11(13):1050-1052
Zhang C.L.,2012,Functional analyses of two transcription factors,TCP15 and TCP22,from Arabidopsis thaliana,Thesis for M.S.,Lanzhou University,Supervisor:Li J.,pp.47-49(张春雷,2012,拟南芥TCP15、TCP22基因功能的研究,硕士学位论文,兰州大学,导师:黎家,pp.47-49)
Zhou M.,Li D.,Li Z.,Hu Q.,Yang C.,Zhu L.,and Luo H.,2014,Constitutive expression of a miR319 gene alters plant development and enhances salt and drought tolerance in transgenic creeping bentgrass,Plant Physiol.,161(4):1375-1391