影响植物叶片衰老因素的研究进展
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摘要
叶片衰老是植物生长发育的最后环节,其对物质的循环再利用和种子的形成过程具有重要意义。植物叶片衰老是一个多因素共同影响、多机制协同调节的复杂生理过程。该文从环境因子和内部因素两个方面对植物叶片衰老的影响因素进行了综述。
Leaf senescence is the last step of plant development, and it is of great significance to the recycling of nutrition and the formation of seeds. Plant leaf senescence is a complex physiological process which is affected by multi-factors and multi-mechanisms. In this article, we introduced internal and external factors that influence plant leaf senescence.
Leaf senescence is the last step of plant development, and it is of great significance to the recycling of nutrition and the formation of seeds. Plant leaf senescence is a complex physiological process which is affected by multi-factors and multi-mechanisms. In this article, we introduced internal and external factors that influence plant leaf senescence.
引文
[1]蒋卉,董晓宇,符真珠,等.植物应对病毒的免疫响应.分子植物育种,2015,13:2626-32
[2]Weaver LM,Gan S,Quirino B,et al.A comparison of the expression patterns of several senescence-associated genes in response to stress and hormone treatment.Plant Mol Biol,1998,37:455-69
[3]Sakuraba Y,Jeong J,Kang MY,et al.Phytochromeinteracting transcription factors PIF4 and PIF5 induce leaf senescence in Arabidopsis.Nat Commun,2014,5:4636
[4]Schippers JH.Transcriptional networks in leaf senescence.Curr Opin Plant Biol,2015,27:77-83
[5]祁蒙.黑暗诱导碳饥饿体系下拟南芥叶片衰老突变体的筛选与鉴定[D].杨凌:西北农林科技大学,2017
[6]Chaves MM,Flexas J,Pinheiro C.Photosynthesis under drought and salt stress:regulation mechanisms from whole plant to cell.Ann Bot,2008,103:551-60
[7]Yildirim K,Kaya Z.Gene regulation network behind drought escape,avoidance and tolerance strategies in black poplar(Populus nigra L.).Plant Physiol Biochem,2017,115:183-99
[8]Lee S,Seo PJ,Lee HJ,et al.A NAC transcription factor NTL4 promotes reactive oxygen species production during drought-induced leaf senescence in Arabidopsis.Plant J,2012,70:831-44
[9]Yang JC,Zhang JH,Wang ZQ,et al.Involvement of abscisic acid and cytokinins in the senescence and remobilization of carbon reserves in wheat subjected to water stress during grain filling.Plant Cell Environ,2003,26:1621-31
[10]Yang SD,Seo PJ,Yoon HK,et al.The Arabidopsis NACtranscription factor VNI2 integrates abscisic acid signals into leaf senescence via the COR/RD genes.Plant Signal Behav,2011,23:2155-68
[11]Pehlivan N.Salt stress relief potency of whortleberry extract biopriming in maize.3 Biotech,2018,8:89
[12]Khalid M,Bilal M,Hassani D,et al.Mitigation of salt stress in white clover(Trifolium repens)by Azospirillum brasilense and its inoculation effect.Bot Stud,2017,58:5
[13]Seneviratne M,Weerasundara L,Yong SO,et al.Phytotoxicity attenuation in Vigna radiata under heavy metal stress at the presence of biochar and N fixing bacteria.J Environ Manage,2017,186:293-300
[14]李菲菲.重金属元素铅(Pb)和镉(Cd)对浮水植物紫背浮萍(Spirodela polyrrhiza)的毒理学效应研究[D].南京:南京师范大学,2016
[15]Stauffer J,Panda B,Eeva T,et al.Telomere damage and redox status alterations in free-living passerines exposed to metals.Sci Total Environ,2017,575:841-8
[16]Rahmat S,Hajibolnd R,Sadeghzade N,et al.Selenium delays leaf senescence in oilseed rape plants.Photosynthetica,2017,55:338-50
[17]Bi ZZ,Zhang YX,Wu WX,et al.ES7,encoding a ferredoxin-dependent glutamate synthase,functions in nitrogen metabolism and impacts leaf senescence in rice.Plant Sci,2017,259:24-34
[18]Sedigheh HG,Mortaavian M,Norozian D,et al.Oxidative stress and leaf senescence.BMC Res Notes,2011,4:477
[19]Haba PD,Mata LD,Molina E,et al.High temperature promotes early senescence in primary leaves of sunflower(Helianthus annuus L.)plants.Can J Plant Sci,2014,94:659-69
[20]Mishra D,Shekhar S,Agrawal L,et al.Cultivar-specific high temperature stress responses in bread wheat(Triticum aestivum L.)associated with physic chemical traits and defense pathways.Food Chem,2017,221:1077-87
[21]Land CJ,Lawrence KS,Burmester CH,et al.Cultivar,irrigation,and soil contribution to the enhancement of verticillium wilt disease in cotton.Crop Prot,2017,96:1-6
[22]程丹丹.烟草叶片光合和呼吸作用对烟草野火病菌侵染的响应[D].哈尔滨:东北林业大学,2016
[23]Jiang YJ,Liang G,Yang SZ,et al.Arabidopsis WRKY57functions as a node of convergence for jasmonic acid-and auxin-mediated signaling in jasmonic acid-induced leaf senescence.Plant Cell,2014,26:230-45
[24]McCabe MS,Garratt LC,Schepers F,et al.Effects of PSAG12-IPT gene expression on development and senescence in transgenic lettuce.Plant Physiol,2001,127:505-16
[25]樊书宏,施海涛,刘国银,等.一个木薯Aux/IAA转录因子的克隆及调节活性氧功能分析.分子植物育种[EB/OL],[2018-10-12],http://kns.cnki.net/kcms/detail/46.1068.S.20181008.0928.018.html
[26]丁永强.茉莉酸和光照调控烟草叶片黄化的作用机制分析[D].重庆:西南大学,2017
[27]He Y,Fukushige H,Hildebrand DF,et al.Evidence supporting a role of jasmonic acid in Arabidopsis leaf senescence.Plant Physiol,2002,128:876-84
[28]Sarwat M,Naqvi AR,Ahmad P,et al.Phytohormones and microRNAs as sensors and regulators of leaf senescence:Assigning macro roles to small molecules.Biotechnol Adv,2013,31:1153-71
[29]Yan JX,Deng YA,Yu J,et al.A study on JA-and BTH-induced resistance of Rosa rugosa‘Plena’to powdery mildew(Sphaerotheca pannosa).J Forest Res,2018,29:823-31
[30]王具宏.浅析植物器官脱落的激素共同调节.中国校外教育,2018,22:117
[31]Kim JH,Chung KM,Woo HR.Three positive regulators of leaf senescence in Arabidopsis,ORE1,ORE3 and ORE9,play roles in crosstalk among multiple hormone-mediated senescence pathways.Genes Genom,2011,33:373-81
[32]Li ZH,Peng JY,Wen X,et al.ETHYLENE-INSENSITIVE3is a senescence-associated gene that accelerates agedependent leaf senescence by directly repressing miR164transcription in Arabidopsis.Plant Cell,2013,25:3311-28
[33]Qiu K,Li ZP,Yang Z,et al.EIN3 and ORE1 accelerate degreening during ethylene-mediated leaf senescence by directly activating chlorophyll catabolic genes in Arabidopsis.PLoS Genet,2015,11:e1005399
[34]王复标.水稻早衰突变体(psf)叶片衰老形成与衰老速率调控的生理机制研究[D].杭州:浙江大学,2017
[35]Zhang KW,Gan SS.An abscisic acid-AtNAP transcription factor-SAG113 protein phosphatase 2C regulatory chain for controlling dehydration in senescing Arabidopsis leaves.Plant Physiol,2012,158:961-9
[36]张治礼,郑学勤,吕应堂.内源细胞分裂素调控油菜叶片衰老进程的研究.作物学报,2005,31:1-6
[37]张艳军,赵江哲,张可伟.植物激素在叶片衰老中的作用机制研究进展.植物生理学报,2014,50:1305-9
[38]Jibran R,Hunter DA,Dijkwel PP.Hormonal regulation of leaf senescence through integration of developmental and stress signals.Plant Mol Biol,2013,82:547-61
[39]周相娟,姜微波,胡小松,等.赤霉素和乙烯对香菜叶片衰老的影响.北方园艺,2003,(03):54-56
[40]Lim PO,Kim HJ,Nam HG.Leaf senescence.Annu Rev Plant Biol,2007,58:115-36
[41]李惠民,贺军民.水杨酸对离体小麦叶片衰老的影响.安徽农业科学,2008,06:2211-2
[42]高小宽.水杨酸对不同品种小麦离体叶片衰老的影响.江苏农业科学,2012,40:53-4
[43]Balazadeh S,Riano-Pachon DM,Mueller-Roeber B.Transcription factors regulating leaf senescence in Arabidopsis thaliana.Plant Biol,2008,10:63-75
[44]Lohma KN,Gan SS,John MC,et al.Molecular analysis of natural leaf senescence in Arabidopsis thaliana.Physiol Plant,2010,92:322-8
[45]Li Z,Zhao Y,Liu XC,et al.Construction of the leaf senescence database and functional assessment of senescence-associated genes.Methods Mol Biol,2017,1533:315-33
[46]孙利军,李大勇,张慧娟,等.NAC转录因子在植物抗病和抗非生物胁迫反应中的作用.遗传,2012,34:993-1002
[47]Souer E,Houwelingen A,Kloos D,et al.The no apical meristem gene of petunia is required for pattern formation in embryos and flowers and is expressed at meristem and primordia boundaries.Cell,1996,85:159-70
[48]陈芹芹.油菜中两个NAC转录因子调控活性氧累积及细胞死亡的分子机制解析[D].杨凌:西北农林科技大学,2017
[49]陈云霞.竹子中叶片衰老相关基因的分离及功能研究[D].南京:南京林业大学,2011
[50]Syed Tariq Shah.陆地棉中NAC家族与叶片衰老和胁迫应答相关功能的遗传学分析[D].北京:中国农业科学院,2013
[51]Liu XQ,Bai XQ,Qian Q,et al.OsWRKY03,a rice transcriptional activator that functions in defense signaling pathway upstream of OsNPR1.Cell Res,2005,15:593-603
[52]Yang S,Zhou L,Miao LY,et al.The expression and binding properties of the rice WRKY68 protein in the Xa21-mediated resistance response to Xanthomonas oryzae pv.Oryzae.J Integr Agr,2016,15:2451-60
[53]Robatzek S,Somssich IE.A new member of the Arabidopsis WRKY transcription factor family,AtWRKY6,is associated with both senescence-and defence-related processes.Plant J,2001,28:123-33
[54]Jing SJ,Zhou X,Song Y,et al.Heterologous expression of OsWRKY23 gene enhances pathogen defense and darkinduced leaf senescence in Arabidopsis.Plant Growth Regul,2009,58:181-90
[55]Gu LJ,Li LB,Wei HL,et al.Identification of the group IIa WRKY subfamily and the functional analysis of GhWRKY17 in upland cotton(Gossypium hirsutum L.).PLos One,2018,13:e0191681
[56]Choi C,Hwang SH,Fang IR,et al.Molecular characterization of Oryza sativa WRKY6,which binds to W-box-like element 1 of the Oryza sativa pathogenesis-related(PR)10a promoter and confers reduced susceptibility to pathogens.New Phytol,2015,208:846-59
[57]Jiang Y,Liang G,Yang S,et al.Arabidopsis WRKY57functions as a node of convergence for jasmonic acid-and auxin-mediated signaling in jasmonic acid-induced leaf senescence.Plant Cell,2014,26:230-45
[58]Dang FF,Wang YN,She JJ,et al.Overexpression of CaWRKY27,a subgroup IIe WRKY transcription factor of Capsicum annuum,positively regulates tobacco resistance to Ralstonia solanacearum infection.Physiol Plant,2014,150:397-411
[59]Han M,Kim CY,Lee J,et al.OsWRKY42 represses OsMT1d and induces reactive oxygen species and leaf senescence in rice.Mol Cells,2014,37:532-9
[60]王璐.番茄果实后熟与叶片衰老相关的SlWRKY转录因子功能分析[D].广州:华南农业大学,2016
[61]高杰,沈成,黄新河.衰老的表观遗传调控机制.中国生物化学与分子生物学报,2017,33:1098-104
[62]He L,Wu WW,Gaurav Z,et al.A naturally occurring epiallele associates with leaf senescence and local climate adaptation in Arabidopsis accessions.Nat Commun,2018,9:460
[2]Weaver LM,Gan S,Quirino B,et al.A comparison of the expression patterns of several senescence-associated genes in response to stress and hormone treatment.Plant Mol Biol,1998,37:455-69
[3]Sakuraba Y,Jeong J,Kang MY,et al.Phytochromeinteracting transcription factors PIF4 and PIF5 induce leaf senescence in Arabidopsis.Nat Commun,2014,5:4636
[4]Schippers JH.Transcriptional networks in leaf senescence.Curr Opin Plant Biol,2015,27:77-83
[5]祁蒙.黑暗诱导碳饥饿体系下拟南芥叶片衰老突变体的筛选与鉴定[D].杨凌:西北农林科技大学,2017
[6]Chaves MM,Flexas J,Pinheiro C.Photosynthesis under drought and salt stress:regulation mechanisms from whole plant to cell.Ann Bot,2008,103:551-60
[7]Yildirim K,Kaya Z.Gene regulation network behind drought escape,avoidance and tolerance strategies in black poplar(Populus nigra L.).Plant Physiol Biochem,2017,115:183-99
[8]Lee S,Seo PJ,Lee HJ,et al.A NAC transcription factor NTL4 promotes reactive oxygen species production during drought-induced leaf senescence in Arabidopsis.Plant J,2012,70:831-44
[9]Yang JC,Zhang JH,Wang ZQ,et al.Involvement of abscisic acid and cytokinins in the senescence and remobilization of carbon reserves in wheat subjected to water stress during grain filling.Plant Cell Environ,2003,26:1621-31
[10]Yang SD,Seo PJ,Yoon HK,et al.The Arabidopsis NACtranscription factor VNI2 integrates abscisic acid signals into leaf senescence via the COR/RD genes.Plant Signal Behav,2011,23:2155-68
[11]Pehlivan N.Salt stress relief potency of whortleberry extract biopriming in maize.3 Biotech,2018,8:89
[12]Khalid M,Bilal M,Hassani D,et al.Mitigation of salt stress in white clover(Trifolium repens)by Azospirillum brasilense and its inoculation effect.Bot Stud,2017,58:5
[13]Seneviratne M,Weerasundara L,Yong SO,et al.Phytotoxicity attenuation in Vigna radiata under heavy metal stress at the presence of biochar and N fixing bacteria.J Environ Manage,2017,186:293-300
[14]李菲菲.重金属元素铅(Pb)和镉(Cd)对浮水植物紫背浮萍(Spirodela polyrrhiza)的毒理学效应研究[D].南京:南京师范大学,2016
[15]Stauffer J,Panda B,Eeva T,et al.Telomere damage and redox status alterations in free-living passerines exposed to metals.Sci Total Environ,2017,575:841-8
[16]Rahmat S,Hajibolnd R,Sadeghzade N,et al.Selenium delays leaf senescence in oilseed rape plants.Photosynthetica,2017,55:338-50
[17]Bi ZZ,Zhang YX,Wu WX,et al.ES7,encoding a ferredoxin-dependent glutamate synthase,functions in nitrogen metabolism and impacts leaf senescence in rice.Plant Sci,2017,259:24-34
[18]Sedigheh HG,Mortaavian M,Norozian D,et al.Oxidative stress and leaf senescence.BMC Res Notes,2011,4:477
[19]Haba PD,Mata LD,Molina E,et al.High temperature promotes early senescence in primary leaves of sunflower(Helianthus annuus L.)plants.Can J Plant Sci,2014,94:659-69
[20]Mishra D,Shekhar S,Agrawal L,et al.Cultivar-specific high temperature stress responses in bread wheat(Triticum aestivum L.)associated with physic chemical traits and defense pathways.Food Chem,2017,221:1077-87
[21]Land CJ,Lawrence KS,Burmester CH,et al.Cultivar,irrigation,and soil contribution to the enhancement of verticillium wilt disease in cotton.Crop Prot,2017,96:1-6
[22]程丹丹.烟草叶片光合和呼吸作用对烟草野火病菌侵染的响应[D].哈尔滨:东北林业大学,2016
[23]Jiang YJ,Liang G,Yang SZ,et al.Arabidopsis WRKY57functions as a node of convergence for jasmonic acid-and auxin-mediated signaling in jasmonic acid-induced leaf senescence.Plant Cell,2014,26:230-45
[24]McCabe MS,Garratt LC,Schepers F,et al.Effects of PSAG12-IPT gene expression on development and senescence in transgenic lettuce.Plant Physiol,2001,127:505-16
[25]樊书宏,施海涛,刘国银,等.一个木薯Aux/IAA转录因子的克隆及调节活性氧功能分析.分子植物育种[EB/OL],[2018-10-12],http://kns.cnki.net/kcms/detail/46.1068.S.20181008.0928.018.html
[26]丁永强.茉莉酸和光照调控烟草叶片黄化的作用机制分析[D].重庆:西南大学,2017
[27]He Y,Fukushige H,Hildebrand DF,et al.Evidence supporting a role of jasmonic acid in Arabidopsis leaf senescence.Plant Physiol,2002,128:876-84
[28]Sarwat M,Naqvi AR,Ahmad P,et al.Phytohormones and microRNAs as sensors and regulators of leaf senescence:Assigning macro roles to small molecules.Biotechnol Adv,2013,31:1153-71
[29]Yan JX,Deng YA,Yu J,et al.A study on JA-and BTH-induced resistance of Rosa rugosa‘Plena’to powdery mildew(Sphaerotheca pannosa).J Forest Res,2018,29:823-31
[30]王具宏.浅析植物器官脱落的激素共同调节.中国校外教育,2018,22:117
[31]Kim JH,Chung KM,Woo HR.Three positive regulators of leaf senescence in Arabidopsis,ORE1,ORE3 and ORE9,play roles in crosstalk among multiple hormone-mediated senescence pathways.Genes Genom,2011,33:373-81
[32]Li ZH,Peng JY,Wen X,et al.ETHYLENE-INSENSITIVE3is a senescence-associated gene that accelerates agedependent leaf senescence by directly repressing miR164transcription in Arabidopsis.Plant Cell,2013,25:3311-28
[33]Qiu K,Li ZP,Yang Z,et al.EIN3 and ORE1 accelerate degreening during ethylene-mediated leaf senescence by directly activating chlorophyll catabolic genes in Arabidopsis.PLoS Genet,2015,11:e1005399
[34]王复标.水稻早衰突变体(psf)叶片衰老形成与衰老速率调控的生理机制研究[D].杭州:浙江大学,2017
[35]Zhang KW,Gan SS.An abscisic acid-AtNAP transcription factor-SAG113 protein phosphatase 2C regulatory chain for controlling dehydration in senescing Arabidopsis leaves.Plant Physiol,2012,158:961-9
[36]张治礼,郑学勤,吕应堂.内源细胞分裂素调控油菜叶片衰老进程的研究.作物学报,2005,31:1-6
[37]张艳军,赵江哲,张可伟.植物激素在叶片衰老中的作用机制研究进展.植物生理学报,2014,50:1305-9
[38]Jibran R,Hunter DA,Dijkwel PP.Hormonal regulation of leaf senescence through integration of developmental and stress signals.Plant Mol Biol,2013,82:547-61
[39]周相娟,姜微波,胡小松,等.赤霉素和乙烯对香菜叶片衰老的影响.北方园艺,2003,(03):54-56
[40]Lim PO,Kim HJ,Nam HG.Leaf senescence.Annu Rev Plant Biol,2007,58:115-36
[41]李惠民,贺军民.水杨酸对离体小麦叶片衰老的影响.安徽农业科学,2008,06:2211-2
[42]高小宽.水杨酸对不同品种小麦离体叶片衰老的影响.江苏农业科学,2012,40:53-4
[43]Balazadeh S,Riano-Pachon DM,Mueller-Roeber B.Transcription factors regulating leaf senescence in Arabidopsis thaliana.Plant Biol,2008,10:63-75
[44]Lohma KN,Gan SS,John MC,et al.Molecular analysis of natural leaf senescence in Arabidopsis thaliana.Physiol Plant,2010,92:322-8
[45]Li Z,Zhao Y,Liu XC,et al.Construction of the leaf senescence database and functional assessment of senescence-associated genes.Methods Mol Biol,2017,1533:315-33
[46]孙利军,李大勇,张慧娟,等.NAC转录因子在植物抗病和抗非生物胁迫反应中的作用.遗传,2012,34:993-1002
[47]Souer E,Houwelingen A,Kloos D,et al.The no apical meristem gene of petunia is required for pattern formation in embryos and flowers and is expressed at meristem and primordia boundaries.Cell,1996,85:159-70
[48]陈芹芹.油菜中两个NAC转录因子调控活性氧累积及细胞死亡的分子机制解析[D].杨凌:西北农林科技大学,2017
[49]陈云霞.竹子中叶片衰老相关基因的分离及功能研究[D].南京:南京林业大学,2011
[50]Syed Tariq Shah.陆地棉中NAC家族与叶片衰老和胁迫应答相关功能的遗传学分析[D].北京:中国农业科学院,2013
[51]Liu XQ,Bai XQ,Qian Q,et al.OsWRKY03,a rice transcriptional activator that functions in defense signaling pathway upstream of OsNPR1.Cell Res,2005,15:593-603
[52]Yang S,Zhou L,Miao LY,et al.The expression and binding properties of the rice WRKY68 protein in the Xa21-mediated resistance response to Xanthomonas oryzae pv.Oryzae.J Integr Agr,2016,15:2451-60
[53]Robatzek S,Somssich IE.A new member of the Arabidopsis WRKY transcription factor family,AtWRKY6,is associated with both senescence-and defence-related processes.Plant J,2001,28:123-33
[54]Jing SJ,Zhou X,Song Y,et al.Heterologous expression of OsWRKY23 gene enhances pathogen defense and darkinduced leaf senescence in Arabidopsis.Plant Growth Regul,2009,58:181-90
[55]Gu LJ,Li LB,Wei HL,et al.Identification of the group IIa WRKY subfamily and the functional analysis of GhWRKY17 in upland cotton(Gossypium hirsutum L.).PLos One,2018,13:e0191681
[56]Choi C,Hwang SH,Fang IR,et al.Molecular characterization of Oryza sativa WRKY6,which binds to W-box-like element 1 of the Oryza sativa pathogenesis-related(PR)10a promoter and confers reduced susceptibility to pathogens.New Phytol,2015,208:846-59
[57]Jiang Y,Liang G,Yang S,et al.Arabidopsis WRKY57functions as a node of convergence for jasmonic acid-and auxin-mediated signaling in jasmonic acid-induced leaf senescence.Plant Cell,2014,26:230-45
[58]Dang FF,Wang YN,She JJ,et al.Overexpression of CaWRKY27,a subgroup IIe WRKY transcription factor of Capsicum annuum,positively regulates tobacco resistance to Ralstonia solanacearum infection.Physiol Plant,2014,150:397-411
[59]Han M,Kim CY,Lee J,et al.OsWRKY42 represses OsMT1d and induces reactive oxygen species and leaf senescence in rice.Mol Cells,2014,37:532-9
[60]王璐.番茄果实后熟与叶片衰老相关的SlWRKY转录因子功能分析[D].广州:华南农业大学,2016
[61]高杰,沈成,黄新河.衰老的表观遗传调控机制.中国生物化学与分子生物学报,2017,33:1098-104
[62]He L,Wu WW,Gaurav Z,et al.A naturally occurring epiallele associates with leaf senescence and local climate adaptation in Arabidopsis accessions.Nat Commun,2018,9:460