bZIP转录因子在植物生长发育及非生物逆境响应的作用
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摘要
在植物的一生中,不同的基因被设定在不同的时期及部位精确地表达,或是在不同的环境条件下如高温、干旱等诱导表达,基因表达受转录因子的精确调控。植物碱性亮氨酸拉链(basic leucine zipper,bZIP)蛋白是一类重要的转录因子,其参与了植物从生长发育到胁迫响应的各种过程。植物生长转变及对胁迫做出响应会迅速地诱发自身大量基因的转录变化,这一过程称为转录重编程。bZIP转录因子就是引导这些转录重编程的转录因子中重要的一类。本文介绍了bZIP转录因子的结构、分类以及重要功能,综述了其在植物生长发育及非生物胁迫响应等过程中所起的关键作用,并就如何拓展完善bZIP转录因子功能研究作了展望。
During the plant life cycle, different sets of genes are designated to express at specific growth and developmental stage, or induced under certain circumstance such as drought, heat and so on. Gene expression is fine regulated by transcription factors. One catalog of transcription factor, the basic leucine zipper(bZIP) transcription factors, are involved in the regulation of various biological processes from development to stress response. During growth phase transformation or under stress, plant transcript profile is changing fast and dramatically. bZIP transcription factors are one of those regulators conduct this transcription reprogram. This paper mainly focused on the recent advances in bZIP transcription factor, including structures, sorts, roles in plant developments and abiotic stress.
During the plant life cycle, different sets of genes are designated to express at specific growth and developmental stage, or induced under certain circumstance such as drought, heat and so on. Gene expression is fine regulated by transcription factors. One catalog of transcription factor, the basic leucine zipper(bZIP) transcription factors, are involved in the regulation of various biological processes from development to stress response. During growth phase transformation or under stress, plant transcript profile is changing fast and dramatically. bZIP transcription factors are one of those regulators conduct this transcription reprogram. This paper mainly focused on the recent advances in bZIP transcription factor, including structures, sorts, roles in plant developments and abiotic stress.
引文
[1] WANG Z H,CHENG K,WAN L Y,et al.Genome-wide analysis of the basic leucine zipper (bZIP) transcription factor gene family in six legume genomes[J].BMC Genomics,2015,16:1053.
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[3] E Z G,ZHANG Y P,ZHOU J H,et al.Mini review roles of the bZIP gene family in rice[J].Genetics and Molecular Research,2014,13(2):3025-3036.
[4] JAKOBY M,WEISSHAAR B,DR?GE-LASER W,et al.BZIP transcription factors in Arabidopsis[J].Trends in Plant Science,2002,7(3):106-111.
[5] LIAO Y,ZOU H F,WEI W,et al.Soybean GmbZIP44,GmbZIP62 and GmbZIP78 genes function as negative regulator of ABA signaling and confer salt and freezing tolerance in transgenic Arabidopsis[J].Planta,2008,228(2):225-240.
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[10] GIBALOVá A,RE■,et al.AtbZIP34 is required for Arabidopsis pollen wall patterning and the control of several metabolic pathways in developing pollen[J].Plant Molecular Biology,2009,70(5):581-601.
[11] GIBALOVá A,STEINBACHOVá L,HAFIDH S,et al.Characterization of pollen-expressed bZIP protein interactions and the role of ATbZIP18 in the male gametophyte[J].Plant Reproduction,2017,30(1):1-17.
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[23] WEISTE C,PEDROTTI L,SELVANAYAGAM J,et al.The Arabidopsis bZIP11 transcription factor links low-energy signalling to auxin-mediated control of primary root growth[J].PLoS Genetics,2017,13(2):e1006607.
[24] OMIDBAKHSHFARD M A,FUJIKURA U,OLAS J J,et al.GROWTH-REGULATING FACTOR 9 negatively regulates Arabidopsis leaf growth by controlling ORG3 and restricting cell proliferation in leaf primordia[J].PLoS Genetics,2018,14(7):e1007484.
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[26] ZHANG C Y,LIU J,ZHAO T,et al.A drought-inducible transcription factor delays reproductive timing in rice[J].Plant Physiology,2016,171(1):334-343.
[27] LIM S,PARK J,LEE N,et al.ABA-INSENSITIVE3,ABA-INSENSITIVE5,and DELLAs interact to activate the expression of SOMNUS and other high-temperature-inducible genes in imbibed seeds in Arabidopsis[J].The Plant Cell,2013,25(12):4863-4878.
[28] ARGYRIS J,DAHAL P,HAYASHI E,et al.Genetic variation for lettuce seed thermoinhibition is associated with temperature-sensitive expression of abscisic acid,gibberellin,and ethylene biosynthesis,metabolism,and response genes[J].Plant Physiology,2008,148(2):926-947.
[29] ZOU J,LIU C F,LIU A L,et al.Overexpression of OsHsp17.0 and OsHsp23.7 enhances drought and salt tolerance in rice[J].Journal of Plant Physiology,2012,169(6):628-635.
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[31] JI X Y,LIU G F,LIU Y J,et al.The bZIP protein from Tamarix hispida,ThbZIP1,is ACGT elements binding factor that enhances abiotic stress signaling in transgenic Arabidopsis[J].BMC Plant Biology,2013,13(1):151.
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[34] LIU C T,MAO B G,OU S J,et al.OsbZIP71,a bZIP transcription factor,confers salinity and drought tolerance in rice[J].Plant Molecular Biology,2014,84(1/2):19-36.
[35] HUANG X S,LIU J H,CHEN X J.Overexpression of PtrABF gene,a bZIP transcription factor isolated from Poncirus trifoliata,enhances dehydration and drought tolerance in tobacco via scavenging ROS and modulating expression of stress-responsive genes[J].BMC Plant Biology,2010,10(1):230.
[36] ZHANG C Y,LI C,LIU J,et al.The OsABF1 transcription factor improves drought tolerance by activating the transcription of COR413-TM1 in rice[J].Journal of Experimental Botany,2017,68(16):4695-4707.
[37] TANG N,ZHANG H,LI X,et al.Constitutive activation of transcription factor OsbZIP46 improves drought tolerance in rice[J].Plant Physiology,2012,158(4):1755-1768.
[38] WANG C L,LU G Q,HAO Y Q,et al.ABP9,a maize bZIP transcription factor,enhances tolerance to salt and drought in transgenic cotton[J].Planta,2017,246(3):453-469.
[39] WANG Z,SU G X,LI M,et al.Overexpressing Arabidopsis ABF3 increases tolerance to multiple abiotic stresses and reduces leaf size in alfalfa[J].Plant Physiology and Biochemistry,2016,109:199-208.
[40] XIANG Y,TANG N,DU H,et al.Characterization of OsbZIP23 as a key player of the basic leucine zipper transcription factor family for conferring abscisic acid sensitivity and salinity and drought tolerance in rice[J].Plant Physiology,2008,148(4):1938-1952.
[41] ZHANG L N,ZHANG L C,XIA C,et al.A novel wheat bZIP transcription factor,TabZIP60,confers multiple abiotic stress tolerances in transgenic Arabidopsis[J].Physiologia Plantarum,2015,153(4):538-554.
[42] MUKHERJEE K,CHOUDHURY A R,GUPTA B,et al.An ABRE-binding factor,OSBZ8,is highly expressed in salt tolerant cultivars than in salt sensitive cultivars of indica rice[J].BMC Plant Biology,2006,6(1):1-14.
[43] AMIR HOSSAIN M,LEE Y,CHO J I,et al.The bZIP transcription factor OsABF1 is an ABA responsive element binding factor that enhances abiotic stress signaling in rice[J].Plant Molecular Biology,2010,72(4/5):557-566.
[44] HOSSAIN M A,CHO J I,HAN M,et al.The ABRE-binding bZIP transcription factor OsABF2 is a positive regulator of abiotic stress and ABA signaling in rice[J].Journal of Plant Physiology,2010,167(17):1512-1520.
[45] LU G J,GAO C X,ZHENG X N,et al.Identification of OsbZIP72 as a positive regulator of ABA response and drought tolerance in rice[J].Planta,2009,229(3):605-615.
[46] LIU C T,MAO B G,OU S J,et al.OsbZIP71,a bZIP transcription factor,confers salinity and drought tolerance in rice[J].Plant Molecular Biology,2014,84(1/2):19-36.
[47] ZHANG X,WANG L,MENG H,et al.Maize ABP9 enhances tolerance to multiple stresses in transgenic Arabidopsis by modulating ABA signaling and cellular levels of reactive oxygen species[J].Plant Molecular Biology,2011,75(4/5):365-378.
[48] WANG C L,LU G Q,HAO Y Q,et al.ABP9,a maize bZIP transcription factor,enhances tolerance to salt and drought in transgenic cotton[J].Planta,2017,246(3):453-469.
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[2] RIECHMANN J L,HEARD J,MARTIN G,et al.Arabidopsis transcription factors:genome-wide comparative analysis among eukaryotes[J].Science,2000,290(5499):2105-2110.
[3] E Z G,ZHANG Y P,ZHOU J H,et al.Mini review roles of the bZIP gene family in rice[J].Genetics and Molecular Research,2014,13(2):3025-3036.
[4] JAKOBY M,WEISSHAAR B,DR?GE-LASER W,et al.BZIP transcription factors in Arabidopsis[J].Trends in Plant Science,2002,7(3):106-111.
[5] LIAO Y,ZOU H F,WEI W,et al.Soybean GmbZIP44,GmbZIP62 and GmbZIP78 genes function as negative regulator of ABA signaling and confer salt and freezing tolerance in transgenic Arabidopsis[J].Planta,2008,228(2):225-240.
[6] CORRêA L G G,RIA?O-PACHóN D M,SCHRAGO C G,et al.The role of bZIP transcription factors in green plant evolution:adaptive features emerging from four founder genes[J].PLoS One,2008,3(8):e2944.
[7] ZHANG M,LIU Y H,SHI H,et al.Evolutionary and expression analyses of soybean basic leucine zipper transcription factor family[J].BMC Genomics,2018,19:159.
[8] ZHAO J,GUO R R,GUO C L,et al.Evolutionary and expression analyses of the apple basic leucine zipper transcription factor family[J].Frontiers in Plant Science,2016,7:376.
[9] CHEN Z S,LIU X F,WANG D H,et al.Transcription factor OsTGA10 is a target of the MADS protein OsMADS8 and is required for tapetum development[J].Plant Physiology,2018,176(1):819-835.
[10] GIBALOVá A,RE■,et al.AtbZIP34 is required for Arabidopsis pollen wall patterning and the control of several metabolic pathways in developing pollen[J].Plant Molecular Biology,2009,70(5):581-601.
[11] GIBALOVá A,STEINBACHOVá L,HAFIDH S,et al.Characterization of pollen-expressed bZIP protein interactions and the role of ATbZIP18 in the male gametophyte[J].Plant Reproduction,2017,30(1):1-17.
[12] VAN LEENE J,BLOMME J,KULKARNI S R,et al.Functional characterization of the Arabidopsis transcription factor bZIP29 reveals its role in leaf and root development[J].Journal of Experimental Botany,2016,67(19):5825-5840.
[13] MA H Z,LIU C,LI Z X,et al.ZmbZIP4 contributes to stress resistance in maize by regulating ABA synthesis and root development[J].Plant Physiology,2018,178(2):753-770.
[14] WANG J C,XU H,ZHU Y,et al.OsbZIP58,a basic leucine zipper transcription factor,regulates starch biosynthesis in rice endosperm[J].Journal of Experimental Botany,2013,64(11):3453-3466.
[15] ZHAN J P,LI G S,RYU C H,et al.Opaque-2 regulates a complex gene network associated with cell differentiation and storage functions of maize endosperm[J].The Plant Cell,2018,30(10):2425-2446.
[16] LI C B,YUE Y H,CHEN H J,et al.The ZmbZIP22 transcription factor regulates 27-kd γ-zein gene transcription during maize endosperm development[J].The Plant Cell,2018,30(10):2402-2424.
[17] MU?IZ GARCíA M N,STRITZLER M,CAPIATI D A.Heterologous expression of Arabidopsis ABF4 gene in potato enhances tuberization through ABA-GA crosstalk regulation[J].Planta,2014,239(3):615-631.
[18] MU?IZ GARCíA M N,CORTELEZZI J I,FUMAGALLI M,et al.Expression of the Arabidopsis ABF4 gene in potato increases tuber yield,improves tuber quality and enhances salt and drought tolerance[J].Plant Molecular Biology,2018,98(1/2):137-152.
[19] DIETRICH K,WELTMEIER F,EHLERT A,et al.Heterodimers of the Arabidopsis transcription factors bZIP1 and bZIP53 reprogram amino acid metabolism during low energy stress[J].The Plant Cell,2011,23(1):381-395.
[20] MA J K,HANSSEN M,LUNDGREN K,et al.The sucrose-regulated Arabidopsis transcription factor bZIP11 reprograms metabolism and regulates trehalose metabolism[J].New Phytologist,2011,191(3):733-745.
[21] MAIR A,PEDROTTI L,WURZINGER B,et al.SnRK1-triggered switch of bZIP63 dimerization mediates the low-energy response in plants[J].eLife,2015,4:05828.
[22] SAGOR G H M,BERBERICH T,TANAKA S,et al.A novel strategy to produce sweeter tomato fruits with high sugar contents by fruit-specific expression of a single bZIP transcription factor gene[J].Plant Biotechnology Journal,2016,14(4):1116-1126.
[23] WEISTE C,PEDROTTI L,SELVANAYAGAM J,et al.The Arabidopsis bZIP11 transcription factor links low-energy signalling to auxin-mediated control of primary root growth[J].PLoS Genetics,2017,13(2):e1006607.
[24] OMIDBAKHSHFARD M A,FUJIKURA U,OLAS J J,et al.GROWTH-REGULATING FACTOR 9 negatively regulates Arabidopsis leaf growth by controlling ORG3 and restricting cell proliferation in leaf primordia[J].PLoS Genetics,2018,14(7):e1007484.
[25] BURMAN N,BHATNAGAR A,KHURANA J P.OsbZIP48,a HY5 transcription factor ortholog,exerts pleiotropic effects in light-regulated development[J].Plant Physiology,2018,176(2):1262-1285.
[26] ZHANG C Y,LIU J,ZHAO T,et al.A drought-inducible transcription factor delays reproductive timing in rice[J].Plant Physiology,2016,171(1):334-343.
[27] LIM S,PARK J,LEE N,et al.ABA-INSENSITIVE3,ABA-INSENSITIVE5,and DELLAs interact to activate the expression of SOMNUS and other high-temperature-inducible genes in imbibed seeds in Arabidopsis[J].The Plant Cell,2013,25(12):4863-4878.
[28] ARGYRIS J,DAHAL P,HAYASHI E,et al.Genetic variation for lettuce seed thermoinhibition is associated with temperature-sensitive expression of abscisic acid,gibberellin,and ethylene biosynthesis,metabolism,and response genes[J].Plant Physiology,2008,148(2):926-947.
[29] ZOU J,LIU C F,LIU A L,et al.Overexpression of OsHsp17.0 and OsHsp23.7 enhances drought and salt tolerance in rice[J].Journal of Plant Physiology,2012,169(6):628-635.
[30] HUANG C J,ZHOU J H,JIE Y C,et al.A ramie bZIP transcription factor BnbZIP2 is involved in drought,salt,and heavy metal stress response[J].DNA and Cell Biology,2016,35(12):776-786.
[31] JI X Y,LIU G F,LIU Y J,et al.The bZIP protein from Tamarix hispida,ThbZIP1,is ACGT elements binding factor that enhances abiotic stress signaling in transgenic Arabidopsis[J].BMC Plant Biology,2013,13(1):151.
[32] YING S,ZHANG D F,FU J,et al.Cloning and characterization of a maize bZIP transcription factor,ZmbZIP72,confers drought and salt tolerance in transgenic Arabidopsis[J].Planta,2012,235(2):253-266.
[33] HSIEH T H,LI C W,SU R C,et al.A tomato bZIP transcription factor,SlAREB,is involved in water deficit and salt stress response[J].Planta,2010,231(6):1459-1473.
[34] LIU C T,MAO B G,OU S J,et al.OsbZIP71,a bZIP transcription factor,confers salinity and drought tolerance in rice[J].Plant Molecular Biology,2014,84(1/2):19-36.
[35] HUANG X S,LIU J H,CHEN X J.Overexpression of PtrABF gene,a bZIP transcription factor isolated from Poncirus trifoliata,enhances dehydration and drought tolerance in tobacco via scavenging ROS and modulating expression of stress-responsive genes[J].BMC Plant Biology,2010,10(1):230.
[36] ZHANG C Y,LI C,LIU J,et al.The OsABF1 transcription factor improves drought tolerance by activating the transcription of COR413-TM1 in rice[J].Journal of Experimental Botany,2017,68(16):4695-4707.
[37] TANG N,ZHANG H,LI X,et al.Constitutive activation of transcription factor OsbZIP46 improves drought tolerance in rice[J].Plant Physiology,2012,158(4):1755-1768.
[38] WANG C L,LU G Q,HAO Y Q,et al.ABP9,a maize bZIP transcription factor,enhances tolerance to salt and drought in transgenic cotton[J].Planta,2017,246(3):453-469.
[39] WANG Z,SU G X,LI M,et al.Overexpressing Arabidopsis ABF3 increases tolerance to multiple abiotic stresses and reduces leaf size in alfalfa[J].Plant Physiology and Biochemistry,2016,109:199-208.
[40] XIANG Y,TANG N,DU H,et al.Characterization of OsbZIP23 as a key player of the basic leucine zipper transcription factor family for conferring abscisic acid sensitivity and salinity and drought tolerance in rice[J].Plant Physiology,2008,148(4):1938-1952.
[41] ZHANG L N,ZHANG L C,XIA C,et al.A novel wheat bZIP transcription factor,TabZIP60,confers multiple abiotic stress tolerances in transgenic Arabidopsis[J].Physiologia Plantarum,2015,153(4):538-554.
[42] MUKHERJEE K,CHOUDHURY A R,GUPTA B,et al.An ABRE-binding factor,OSBZ8,is highly expressed in salt tolerant cultivars than in salt sensitive cultivars of indica rice[J].BMC Plant Biology,2006,6(1):1-14.
[43] AMIR HOSSAIN M,LEE Y,CHO J I,et al.The bZIP transcription factor OsABF1 is an ABA responsive element binding factor that enhances abiotic stress signaling in rice[J].Plant Molecular Biology,2010,72(4/5):557-566.
[44] HOSSAIN M A,CHO J I,HAN M,et al.The ABRE-binding bZIP transcription factor OsABF2 is a positive regulator of abiotic stress and ABA signaling in rice[J].Journal of Plant Physiology,2010,167(17):1512-1520.
[45] LU G J,GAO C X,ZHENG X N,et al.Identification of OsbZIP72 as a positive regulator of ABA response and drought tolerance in rice[J].Planta,2009,229(3):605-615.
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