植物的钾通道TPK/KCO研究进展
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摘要
钾在植物的生长发育过程中具有重要的生理功能。钾通道是植物吸收钾离子的一个重要途径,并且钾通道家族是一个具有多个成员的庞大家族,因此钾通道在植物中的研究具有重要意义。目前钾通道通常被分为三类,分别是Shaker家族通道、TPK/KCO通道和其他钾通道。本研究主要从钾通道TPK/KCO的基本结构、亚细胞定位及不同植物中钾通道TPK/KCO的基因表达与功能研究等方面对植物钾通道TPK/KCO的研究进展进行论述,以期为今后植物钾通道TPK/KCO的进一步研究提供理论基础与科学依据。
Potassium has important physiological functions in the process of plant growth and development.Potassium channel is one of the important ways for plants to absorb potassium ions, and the potassium channel family is a large family with multiple members, so it is significant to studying the potassium channels in plants. At present, potassium channels are generally divided into three categories: Shaker family channels, TPK/KCO channels, and other potassium channels. This article mainly discussed the research progress of potassium channels TPK/KCO in plant from the basic structure, subcellular localization, gene expression and function of potassium channel TPK/KCO in different plants. In order to provide the theoretical basis and scientific basis for further research on the plant potassium channel TPK/KCO in the future.
Potassium has important physiological functions in the process of plant growth and development.Potassium channel is one of the important ways for plants to absorb potassium ions, and the potassium channel family is a large family with multiple members, so it is significant to studying the potassium channels in plants. At present, potassium channels are generally divided into three categories: Shaker family channels, TPK/KCO channels, and other potassium channels. This article mainly discussed the research progress of potassium channels TPK/KCO in plant from the basic structure, subcellular localization, gene expression and function of potassium channel TPK/KCO in different plants. In order to provide the theoretical basis and scientific basis for further research on the plant potassium channel TPK/KCO in the future.
引文
Ahmad I.,Devonshire J.,Mohamed R.,Schultze M.,and Maathuis F.J.M.,2015,Overexpression of the potassium channel TP-Kb in small vacuoles confers osmotic and drought tolerance to rice,New Phytol.,209(3):1040-1048
Amrutha R.N.,Sekhar P.N.,Varshney R.K.,and Kishor P.B.K.,2007,Genome-wide analysis and identification of genes re lated to potassium transporter families in rice(Oryza sativa L.),Plant Sci.,172(4):708-721
Armengaud P.,Sulpice R.,Miller A.J.,Stitt M.,Amtmann A.,and Gibon Y.,2009,Multilevel analysis of primary metabolism provides new insights into the role of potassium nutrition for glycolysis and nitrogen assimilation in Arabidopsis roots,Plant Physiol.,150(2):772-785
Ashley M.K.,Grant M.,and Grabov A.,2006,Plant responses to potassium deficiencies:a role for potassium transport proteins,J.Exp.Bot.,57(2):425-436
Becker D.,Geiger D.,and Dunkel M.,2004,At TPK4,an Arabidopsis tandem-pore K+channel,poised to control the pollen membrane voltage in a pH-and Ca2+-dependent manner,Proc.NatI.Acad.Sci.USA,101(44):l562l-l5626
Cai Y.B.,Zhu J.H.,Chang W.J.,Zhang Q.Q.,and Zhang Z.L.,2010,Cloning and expression analysis of HbKC01 from Hevea brasiliensis,Nongye Shengwu Jishu Xuebao(Journal of Agricultural Biotechnology),18(1):30-36(蔡元保,朱家红,畅文军,张全琪,张治礼,2010,巴西橡胶树K+通道蛋白基因HbKC01的克隆与表达分析,农业生物技术学报,18(1):30-36)
Carraretto L.,Formentin E.,Teardo E.,Checchetto V.,Tomizioli M.,Morosinotto T.,Giacometti G.M.,Finazzi G.,and SzabóI.,2013,A thylakoid-located two-pore K+channel controls photosynthetic light utilization in plants,Science,342(6154):114-118
Cheng Y.H.,Zhao R.X.,and Dong K.H.,2008,Research on plasma K+channel protein,Shanxi Nongye Kexue(Journal of Shanxi Agricultural Sciences),36(2):3-7(程钰宏,赵瑞雪,董宽虎,2008,植物钾(K+)离子通道的研究,山西农业科学,36(2):3-7)
Corratgé-Faillie C.,Jabnoune M.,Zimmermann S.,Véry A.A.,Fizames C.,and Sentenac H.,2010,Potassium and sodium transport in non-animal cells:th e Trk/Ktr/HKT transporter family,Cell.Mol.Life Sci.,67(15):2511-2532
Czempinski K.,Zimmermann S.,Ehrhardt T.,and Muller-Rober B.,1997,New structure and function in plant K+channels:KCO1,an outward rectifier with a steep Ca2+dependency,EMBO J.,16(10):2565-2575
Czemplnski K.,Frachisse J.M.,Maure C.,Barbier-Brygoo H.,and Mueller-Roeber B.,2002,Vacuolar membrane localiza tion of the Arabidopsis'two-pore'K+channel KCO1,Plant J.,29(6):809-820
Doyle D.A.,Morais Cabral J.,Pfuetzner R.A.,Kuo A.,Gulbis J.M.,Cohen S.L.,Chait B.T.,and MacKinnon R.,1998,The structure of the potassium channel:molecular basis of K+conduction and selectivity,Science,280(5360):69-77
Dreyer I.,Porée F.,Schneider A.,Mittelst覿dt J.,Bertl A.,Sentenac H.,Thibaud J.B.,and Roeber B.M.,2004,Assembly of plant Shaker like K+out channels requires two distinct sites of the channelα-subunit,Biophys.J.,87(2):858-872
Dunkel M.,Latz A.,Schumacher K.,Müller T.,Becker D.,and Hedrich R.,2008,Targeting of vacuolar membrane localized members of the TPK channel family,Mol.Plant,1(6):938-949
Gobert A.,Isayenkov S.,Voelker C.,Czempinski K.,and Maathuis F.J.M.,2007,The two-pore channel TPK1 gene encodes the vacuolar K+conductance and plays a role in K+homeostasis,Proc.NatI.Acad.Sci.USA,104(25):10726-10731
Gomez-Porras J.L.,Ria觡o-Pachón D.M.,Benito B.,Haro R.,Sklodowski K.,Rodríguez-Navarro A.,and Dreyer I.,2012,Phylogenetic analysis of K+transporters in bryophytes,lycophytes,and flowering plants indicates a specialization of vascular plants,Front.Plant Sci.,3:167
Hamamoto S.,Marui J.,Matsuoka K.,Higashi K.,Igarashi K.,Nakagawa T.,Kuroda T.,Mori Y.,Murata Y.,Nakanishi Y.,Maeshima M.,Yabe I.,and Uozumia N.,2007,Characterization of a tobacco TPK-type K+channel as a novel tonoplast K+channel using yeast tonoplasts,J.Biol.Chem.,283(4):1911-1920
Hu J.J.,Xiao L.T.,Peng Z.H.,and Hong Y.H.,2003,The progress of the potassium uptake genes and genetic transformation in plant,Shengwu Jishu Tongxun(Letter in Biotechnology),14(2):165-168(胡家金,肖浪涛,彭志红,洪亚辉,2003,植物钾吸收基因及其遗传转化的研究进展,生物技术通讯,14(2):165-168)
Isayenkov S.,and Maathuis F.J.M.,2015,The expression of rice vacuolar TPK channels genes restores potassium uptake in E.coli mutant strain LB2003,Cytol.Genet.,49(1):1-5
Isayenkov S.,Isner J.C.,and Maathuis F.J.M.,2011,Membrane localization diversity of TPK channels and their physiological role,Plant Signal.Behav.,6(8):1201-1204
Isayenkov S.,Isner J.C.,and Maathuis F.J.M.,2011,Rice two-pore K+channels are expressed in different types of vacuoles,Plant Cell,23(2):756-768
Lebaudy A.,Very A.A.,and Sentenac H.,2007,K+channel activity in plants:genes,regulations and functions,FEBS Lett.,581(12):2357-2366
Liu G.S.,Wang Y.Y.,Sun Y.H.,and Wang W.F.,2006,Protein for transport of potassium in higher plant,Shengwu Jishu Tongbao(Biotechnology Bulletin),(5):13-18(刘贯山,王元英,孙玉合,王卫锋,2006,高等植物钾转运蛋白,生物技术通报,(5):13-18)
Lu L.M.,and Yang T.Z.,2006a,Advances in research of molecular mechanisms of potassium uptaking and transportation in plant,Mianhua Xuebao(Cotton Science),18(6):379-385(鲁黎明,杨铁钊,2006a,植物K+吸收转运的分子机制研究进展,棉花学报,18(6):379-385)
Lu L.M.,and Yang T.Z.,2006b,Potassium transporters and their molecular regulation in higher plants,Xibei Zhiwu Xuebao(Acta Botanica Boreali-Occidentalia Sinica),26(11):2402-2410(鲁黎明,杨铁钊,2006b,高等植物K+吸收转运蛋白及其分子调节,西北植物学报,26(11):2402-2410)
Maathuis F.J.M.,2011,Vacuolar two-pore K+channels act as vacuolar osmosensors,New Phytol.,191(1):84-91
Maathuis F.J.M.,Ichida A.M.,Sanders D.,and Schroeder J.I.,1997,Roles of higher plant K+channels,Plant Physiol.,114(4):l141-l149
Marcel D.,Muller T.,Hedrich R.,and Geiger D.,2010,K+transport characteristics of the plasma membrane tandem-pore channel TPK4 and pore chimeras with its vacuolar homologs,FEBS Lett.,584(11):2433-2439
Marschner H.,ed.,1995,Mineral nutrition of higher plants,Academic Press,London,UK,pp.889
Moshelion M.,Becker D.,Czemplnski K.,and Moran N.,2002,Diurnal and circadian regulation of putative potassium channels in a leaf moving organ,Plant Physiol.,128(2):634-642
Munns R.,2002,Comparative physiology of salt and water stress,Plant Cell Environ.,25(2):239-250
Rehman H.M.,Nawaz M.A.,Shah Z.H.,Daur I.,Khatoon S.,Yang S.H.,and Chung G.,2017,In-depth genomic and transcriptomic analysis of five K+transporter gene families in soybean confirm their differential expression for nodulation,Front.Plant Sci.,8:804
Schonknecht G.,Spoormaker P.,Steinmeyer R.,Brüggeman L.,Ache P.,Dutta R.,Reintanz B.,Godde M.,Hedrich R.,and Palme K.,2002,KCO1 is a component of the slow-vacuolar(SV)ion channel,FEBS Lett.,511(1-3):28-32
Sharma T.,Dreyer I.,and Riedelsberger J.,2013,The role of K+channels in uptake an d redistribution of potassium in the model plant Arabidopsis thaliana,Front.Plant Sci.,4:224
Sinnige M.P.,Hoopen P.T.,van den Wijngaard P.W.J.,Roobeek I.,Schoonheim P.J.,Mol J.N.M.,and Boer A.H.,2005,The barley two-pore K+-channel Hv KCO1 interacts with14-3-3proteins in an isoform specific manner,Plant Sci.,169(3):612-619
Synsuke K.,Reda E.,and Hany A.,2011,Potassium deficiency affects water status and photosynthetic rate of the vegetative sink in green house tomato prior to its effects on source activity,Plant Sci.,180(2):368-374
Very A.A.,and Sentenac H.,2003,Molecular mechanisms and regulation of K+transport in higher plants,Annu.Rev.Plant Biol.,54(1):575-603
Voelker C.,Gomez-Porras J.L.,Becker D.,Hamamoto S.,Uozumi N.,Gambale F.,Mueller-Roeber B.,Czempinski K.,and Dreyer I.,2010,Roles of tandem-pore K+channels in plants-a puzzle still to be solved,Plant Biol.,12(S):56-63
Voelker C.,Schmidt D.,Mueller-Roeber B.,and Czempinski K.,2006,Members of the Arabidopsis At TPK/KCO family form homomeric vacuolar channels in planta,Plant J.,48(2):296-306
Wang F.F.,Deng S.R.,Ding M.Q.,Sun J.,Wang M.J.,Zhu H.P.,Han Y.S.,Shen Z.D.,Jing X.S.,Zhang F.,Hu Y.,Shen X.,and Chen S.L.,2013,Overexpression of a poplar two-pore K+channel enhances salinity tolerance in tobacco cells,Plant Cell Tiss.Org.,112(1):19-31
Wang Q.Q.,and Zhao Y.Y.,2006,Potassium transport system in Arabidopsis thaliana,Zhiwu Shenglixue Tongxun(Plant Physiology Communications),42(4):599-604(王卿卿,赵云云,2006,拟南芥的钾转运系统,植物生理学通讯,42(4):599-604)
Wang Y.,and Wu W.H.,2013,Potassium transport and signaling in higher plants,Annu.Rev.Plant Biol.,64(6):451-476
White P.J.,and Karley A.J.,2010,Potassium,In:Hell R.,and Mendel R.R.(eds.),Plant cell monographs 17,cell biology of metals and nutrients,springer:Berlin/Heidelberg,Germany,pp.199-224
Xu L.,Huang L.P.,Lu L.M.,and Li L.Q.,2017,Cloning and expression analysis of potassium channel NtTPK gene in tobacco,Zhejiang Nongye Xuebao(Acta Agriculturae Zhejiangensis),29(3):366-372(许力,黄路平,鲁黎明,李立芹,2017,烟草钾离子通道基因NtTPK的克隆及表达分析,浙江农业学报,29(3):366-372)
Yang J.,Kloepper J.W.,and Ryu C.M.,2009,Rhizosphere bacteria help plantstolerate abiotic stress,Trends Plant Sci.,14(1):1-4
Amrutha R.N.,Sekhar P.N.,Varshney R.K.,and Kishor P.B.K.,2007,Genome-wide analysis and identification of genes re lated to potassium transporter families in rice(Oryza sativa L.),Plant Sci.,172(4):708-721
Armengaud P.,Sulpice R.,Miller A.J.,Stitt M.,Amtmann A.,and Gibon Y.,2009,Multilevel analysis of primary metabolism provides new insights into the role of potassium nutrition for glycolysis and nitrogen assimilation in Arabidopsis roots,Plant Physiol.,150(2):772-785
Ashley M.K.,Grant M.,and Grabov A.,2006,Plant responses to potassium deficiencies:a role for potassium transport proteins,J.Exp.Bot.,57(2):425-436
Becker D.,Geiger D.,and Dunkel M.,2004,At TPK4,an Arabidopsis tandem-pore K+channel,poised to control the pollen membrane voltage in a pH-and Ca2+-dependent manner,Proc.NatI.Acad.Sci.USA,101(44):l562l-l5626
Cai Y.B.,Zhu J.H.,Chang W.J.,Zhang Q.Q.,and Zhang Z.L.,2010,Cloning and expression analysis of HbKC01 from Hevea brasiliensis,Nongye Shengwu Jishu Xuebao(Journal of Agricultural Biotechnology),18(1):30-36(蔡元保,朱家红,畅文军,张全琪,张治礼,2010,巴西橡胶树K+通道蛋白基因HbKC01的克隆与表达分析,农业生物技术学报,18(1):30-36)
Carraretto L.,Formentin E.,Teardo E.,Checchetto V.,Tomizioli M.,Morosinotto T.,Giacometti G.M.,Finazzi G.,and SzabóI.,2013,A thylakoid-located two-pore K+channel controls photosynthetic light utilization in plants,Science,342(6154):114-118
Cheng Y.H.,Zhao R.X.,and Dong K.H.,2008,Research on plasma K+channel protein,Shanxi Nongye Kexue(Journal of Shanxi Agricultural Sciences),36(2):3-7(程钰宏,赵瑞雪,董宽虎,2008,植物钾(K+)离子通道的研究,山西农业科学,36(2):3-7)
Corratgé-Faillie C.,Jabnoune M.,Zimmermann S.,Véry A.A.,Fizames C.,and Sentenac H.,2010,Potassium and sodium transport in non-animal cells:th e Trk/Ktr/HKT transporter family,Cell.Mol.Life Sci.,67(15):2511-2532
Czempinski K.,Zimmermann S.,Ehrhardt T.,and Muller-Rober B.,1997,New structure and function in plant K+channels:KCO1,an outward rectifier with a steep Ca2+dependency,EMBO J.,16(10):2565-2575
Czemplnski K.,Frachisse J.M.,Maure C.,Barbier-Brygoo H.,and Mueller-Roeber B.,2002,Vacuolar membrane localiza tion of the Arabidopsis'two-pore'K+channel KCO1,Plant J.,29(6):809-820
Doyle D.A.,Morais Cabral J.,Pfuetzner R.A.,Kuo A.,Gulbis J.M.,Cohen S.L.,Chait B.T.,and MacKinnon R.,1998,The structure of the potassium channel:molecular basis of K+conduction and selectivity,Science,280(5360):69-77
Dreyer I.,Porée F.,Schneider A.,Mittelst覿dt J.,Bertl A.,Sentenac H.,Thibaud J.B.,and Roeber B.M.,2004,Assembly of plant Shaker like K+out channels requires two distinct sites of the channelα-subunit,Biophys.J.,87(2):858-872
Dunkel M.,Latz A.,Schumacher K.,Müller T.,Becker D.,and Hedrich R.,2008,Targeting of vacuolar membrane localized members of the TPK channel family,Mol.Plant,1(6):938-949
Gobert A.,Isayenkov S.,Voelker C.,Czempinski K.,and Maathuis F.J.M.,2007,The two-pore channel TPK1 gene encodes the vacuolar K+conductance and plays a role in K+homeostasis,Proc.NatI.Acad.Sci.USA,104(25):10726-10731
Gomez-Porras J.L.,Ria觡o-Pachón D.M.,Benito B.,Haro R.,Sklodowski K.,Rodríguez-Navarro A.,and Dreyer I.,2012,Phylogenetic analysis of K+transporters in bryophytes,lycophytes,and flowering plants indicates a specialization of vascular plants,Front.Plant Sci.,3:167
Hamamoto S.,Marui J.,Matsuoka K.,Higashi K.,Igarashi K.,Nakagawa T.,Kuroda T.,Mori Y.,Murata Y.,Nakanishi Y.,Maeshima M.,Yabe I.,and Uozumia N.,2007,Characterization of a tobacco TPK-type K+channel as a novel tonoplast K+channel using yeast tonoplasts,J.Biol.Chem.,283(4):1911-1920
Hu J.J.,Xiao L.T.,Peng Z.H.,and Hong Y.H.,2003,The progress of the potassium uptake genes and genetic transformation in plant,Shengwu Jishu Tongxun(Letter in Biotechnology),14(2):165-168(胡家金,肖浪涛,彭志红,洪亚辉,2003,植物钾吸收基因及其遗传转化的研究进展,生物技术通讯,14(2):165-168)
Isayenkov S.,and Maathuis F.J.M.,2015,The expression of rice vacuolar TPK channels genes restores potassium uptake in E.coli mutant strain LB2003,Cytol.Genet.,49(1):1-5
Isayenkov S.,Isner J.C.,and Maathuis F.J.M.,2011,Membrane localization diversity of TPK channels and their physiological role,Plant Signal.Behav.,6(8):1201-1204
Isayenkov S.,Isner J.C.,and Maathuis F.J.M.,2011,Rice two-pore K+channels are expressed in different types of vacuoles,Plant Cell,23(2):756-768
Lebaudy A.,Very A.A.,and Sentenac H.,2007,K+channel activity in plants:genes,regulations and functions,FEBS Lett.,581(12):2357-2366
Liu G.S.,Wang Y.Y.,Sun Y.H.,and Wang W.F.,2006,Protein for transport of potassium in higher plant,Shengwu Jishu Tongbao(Biotechnology Bulletin),(5):13-18(刘贯山,王元英,孙玉合,王卫锋,2006,高等植物钾转运蛋白,生物技术通报,(5):13-18)
Lu L.M.,and Yang T.Z.,2006a,Advances in research of molecular mechanisms of potassium uptaking and transportation in plant,Mianhua Xuebao(Cotton Science),18(6):379-385(鲁黎明,杨铁钊,2006a,植物K+吸收转运的分子机制研究进展,棉花学报,18(6):379-385)
Lu L.M.,and Yang T.Z.,2006b,Potassium transporters and their molecular regulation in higher plants,Xibei Zhiwu Xuebao(Acta Botanica Boreali-Occidentalia Sinica),26(11):2402-2410(鲁黎明,杨铁钊,2006b,高等植物K+吸收转运蛋白及其分子调节,西北植物学报,26(11):2402-2410)
Maathuis F.J.M.,2011,Vacuolar two-pore K+channels act as vacuolar osmosensors,New Phytol.,191(1):84-91
Maathuis F.J.M.,Ichida A.M.,Sanders D.,and Schroeder J.I.,1997,Roles of higher plant K+channels,Plant Physiol.,114(4):l141-l149
Marcel D.,Muller T.,Hedrich R.,and Geiger D.,2010,K+transport characteristics of the plasma membrane tandem-pore channel TPK4 and pore chimeras with its vacuolar homologs,FEBS Lett.,584(11):2433-2439
Marschner H.,ed.,1995,Mineral nutrition of higher plants,Academic Press,London,UK,pp.889
Moshelion M.,Becker D.,Czemplnski K.,and Moran N.,2002,Diurnal and circadian regulation of putative potassium channels in a leaf moving organ,Plant Physiol.,128(2):634-642
Munns R.,2002,Comparative physiology of salt and water stress,Plant Cell Environ.,25(2):239-250
Rehman H.M.,Nawaz M.A.,Shah Z.H.,Daur I.,Khatoon S.,Yang S.H.,and Chung G.,2017,In-depth genomic and transcriptomic analysis of five K+transporter gene families in soybean confirm their differential expression for nodulation,Front.Plant Sci.,8:804
Schonknecht G.,Spoormaker P.,Steinmeyer R.,Brüggeman L.,Ache P.,Dutta R.,Reintanz B.,Godde M.,Hedrich R.,and Palme K.,2002,KCO1 is a component of the slow-vacuolar(SV)ion channel,FEBS Lett.,511(1-3):28-32
Sharma T.,Dreyer I.,and Riedelsberger J.,2013,The role of K+channels in uptake an d redistribution of potassium in the model plant Arabidopsis thaliana,Front.Plant Sci.,4:224
Sinnige M.P.,Hoopen P.T.,van den Wijngaard P.W.J.,Roobeek I.,Schoonheim P.J.,Mol J.N.M.,and Boer A.H.,2005,The barley two-pore K+-channel Hv KCO1 interacts with14-3-3proteins in an isoform specific manner,Plant Sci.,169(3):612-619
Synsuke K.,Reda E.,and Hany A.,2011,Potassium deficiency affects water status and photosynthetic rate of the vegetative sink in green house tomato prior to its effects on source activity,Plant Sci.,180(2):368-374
Very A.A.,and Sentenac H.,2003,Molecular mechanisms and regulation of K+transport in higher plants,Annu.Rev.Plant Biol.,54(1):575-603
Voelker C.,Gomez-Porras J.L.,Becker D.,Hamamoto S.,Uozumi N.,Gambale F.,Mueller-Roeber B.,Czempinski K.,and Dreyer I.,2010,Roles of tandem-pore K+channels in plants-a puzzle still to be solved,Plant Biol.,12(S):56-63
Voelker C.,Schmidt D.,Mueller-Roeber B.,and Czempinski K.,2006,Members of the Arabidopsis At TPK/KCO family form homomeric vacuolar channels in planta,Plant J.,48(2):296-306
Wang F.F.,Deng S.R.,Ding M.Q.,Sun J.,Wang M.J.,Zhu H.P.,Han Y.S.,Shen Z.D.,Jing X.S.,Zhang F.,Hu Y.,Shen X.,and Chen S.L.,2013,Overexpression of a poplar two-pore K+channel enhances salinity tolerance in tobacco cells,Plant Cell Tiss.Org.,112(1):19-31
Wang Q.Q.,and Zhao Y.Y.,2006,Potassium transport system in Arabidopsis thaliana,Zhiwu Shenglixue Tongxun(Plant Physiology Communications),42(4):599-604(王卿卿,赵云云,2006,拟南芥的钾转运系统,植物生理学通讯,42(4):599-604)
Wang Y.,and Wu W.H.,2013,Potassium transport and signaling in higher plants,Annu.Rev.Plant Biol.,64(6):451-476
White P.J.,and Karley A.J.,2010,Potassium,In:Hell R.,and Mendel R.R.(eds.),Plant cell monographs 17,cell biology of metals and nutrients,springer:Berlin/Heidelberg,Germany,pp.199-224
Xu L.,Huang L.P.,Lu L.M.,and Li L.Q.,2017,Cloning and expression analysis of potassium channel NtTPK gene in tobacco,Zhejiang Nongye Xuebao(Acta Agriculturae Zhejiangensis),29(3):366-372(许力,黄路平,鲁黎明,李立芹,2017,烟草钾离子通道基因NtTPK的克隆及表达分析,浙江农业学报,29(3):366-372)
Yang J.,Kloepper J.W.,and Ryu C.M.,2009,Rhizosphere bacteria help plantstolerate abiotic stress,Trends Plant Sci.,14(1):1-4