[1]李静,刘明,孙晶,等.Na+(K+)/H+转运蛋白NHX基因的研究进展[J].大豆科学,2011,30(06):1035-1039.[doi:10.11861/j.issn.1000-9841.2011.06.1035]
 LI Jing,LIU Ming,SUN Jing,et al.Progress of Research on Na+(K+)/H+ Antiporter NHX Gene[J].Soybean Science,2011,30(06):1035-1039.[doi:10.11861/j.issn.1000-9841.2011.06.1035]
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Na+(K+)/H+转运蛋白NHX基因的研究进展

《大豆科学》[ISSN:1000-9841/CN:23-1227/S] 卷: 第30卷 期数: 2011年06期 页码: 1035-1039 栏目: 出版日期: 2011-12-25
Title:
Progress of Research on Na+(K+)/H+ Antiporter NHX Gene
文章编号:
1000-9841(2011)06-1035-05
作者:
李静刘明孙晶李思楠李文滨武小霞
东北农业大学 农学院,大豆生物学教育部重点实验室,黑龙江 哈尔滨 150030
Author(s):
LI JingLIU MingSUN JingLI Si-nanLI Wen-binWU Xiao-xia
Agriculture College of Northeast Agricultural University,Key Laboratory of Soybean Biology of Chinese Ministry of Education,Harbin 150030,Heilongjiang,China
关键词:
Na+(K+)/H+转运蛋白NHX基因研究进展
Keywords:
Na+(K+)/H+ antiporterNHX geneResearch progress
分类号:
Q946.2
DOI:
10.11861/j.issn.1000-9841.2011.06.1035
文献标志码:
A
摘要:
Na+(K+)/H+转运蛋白是液泡膜中的一种离子反向运输体,是生物界普遍存在的负责Na+(K+)/H+交换的一种跨膜运输蛋白。Na+(K+)/H+逆向转运蛋白由NHX家族基因调控表达。过表达NHX家族基因能提高植物中Na+(K+)/H+逆向转运蛋白的活性。从而调节细胞质内pH值、维持Na+(K+)浓度、K+/Na+比、保持细胞膨压、控制细胞扩增的功能,是植物耐盐的关键因子。该文主要对Na+(K+)/H+逆向转运蛋白的发现、功能以及调控其表达的NHX基因的克隆、分类及其与抗旱耐盐之间的关系进行了综述,旨在全面了解其功能和作用机理后将其转入到大豆基因组中,获得抗旱耐盐的转基因大豆种质。
Abstract:
Na+(K+)/H+antiporter are ubiquitous membrane proteins which catalyze the exchange of Na+(K+)for H+ across membranes and play important roles in controlling cellular pH,Na+homeostasis cell turgor pressure and cell proliferation.In particular,the vacuolar Na+(K+)/H+ antiporter has been investigated and proposed to play an important role in salt tolerance.NHX gene control the expression of Na+(K+)/H+ antiporter,overexpress NHX gene in plants can improve the activity of Na+(K+)/H+ antiporter.In the study of plant stress tolerance,more and more researchers have paid attention to Na+(K+)/H+ antiporter.NHX gene which control expression of Na+(K+)/H+ antiporter were found in many crops,and proved its relationship with the resilience.In this study,the found and functions of Na+(K+)/H+ antiporter,together with cloning and classification of NHX gene and the relationship between drought tolerance were reviewed.In order to obtain the transgenic soybean with drought resistance,understanding of function and action mechanism made a foundation for soybean NHX gene transformation.

参考文献/References:

[1]Apse M P,Aharon G S,Snedden W A.Salt tolerance conferred by overexpression of a vacuolar Na+/H+antiporter in Arabidopsis[J].Science,1999,285:1256-1258.

[2]Murer H,Hopfer V,Kinne R.Sodium/proton antiport in brush-border-membrane vesicles isolated from rat small intestine and kidney[J].Biochemical Journal,1976,154:597-604.

[3]Ratner A,Jacoby B.Effect of K+,its counter anion and pH on sodium efflux from barley roots[J].Journal of Expermental Botany,1976,148:425-433.

[4]Gaxiola R A,Rao R,Sherman A.The Arabidopsis thaliana proton transporters,AtNHX1 and Avp1 can function in cation detoxification in yeast[J].Proceeding of the National Academy of Science of USA,1999,96:1480-1485.

[5]Sze H,Padmanaban S,Cellier F,et al.Expression patterns of a novel AtCHX gene family highlight potential roles in osmotic adjustment and K+homeostasis in pollen development[J].Plant Physiology,2004,136:2532-2547.

[6]Pandan E,Schuldner S.Intracellular pH and membrane potential as regulators in the prokaryotic cell[J].Journal of Membrane Biology,1987,95(3):189-198.

[7]Yamaguchi T,Aharon G S,Sottosanto J B,et al.Vacuolar Na+/H+antiporter cation selectivity is regulated by calmodulin from within the vacuole in a Ca2+and pH-dependent manner[J].Proceeding of the National Academy of Science of USA,2005,102(44):16107-16112.

[8]Yamaguchi T,Apse M P,Shi H,et al.Topological analysis of a plant vacuolar Na+/H+antiporter reveals a luminal C terminus that regulates antiporter cation selectivity[J].Proceeding of the National Academy of Science of USA,2003,100(21):12510-12515.

[9]Rausch T,Kirsch M,Zhigang A.Salt stress responses of higher plants:the role of proton pumps and Na+ / H+antiporters[J].Journal of Plant Physiology,1996,148:425-433.

[10]Niu X,Narasimhan M L,Hasegawa P M,et al.NaCl regulation of plasma membrane H+-ATPase gene expression in a glycophyte and halophyte[J].Plant Physiology,1993,106:713-718.

[11]Waki T,Higashida Y,Watanabe Y.Characterization of flsecond gene ZS(OD22)of Na+/H+ antiporter from salt tolerant yeast Zygosaccharomyces rouxii and functional expression of ZSOD2 and ZSOD22 in Saccharomyces cerevisiae[J].Yeast,1998,14:1167-1174.

[12]Schachtman D P,Liu W.Molecular pieces to the puzzle of the interaction between potassium and sodium up take in plants[J].Trend Plant Science,1999,4(7):281-287.

[13]Sardet C,Franchi A,Pouyssegur J.Molecular cloning,primary structure,and expression of the human growth factor-activatable Na+/H+ antiporter[J].Cell,1989,56(2):271-280.

[14]Barkla B J,Apse M P,Blumwald E.The plant vacuolar Na+/H+ antiport[J].Symposia of the Society Experiment Biology,1994,48:141-153.

[15]Fukuda A,Nakamura A,Yoshiyuki T.Molecular cloning and expression of the Na+/H+ exchanger gene in Oryza sativa[J].Biochimica et Biophysica Acta,1999,1446(1-2):149-155.

[16]Fukuda A,Nakamura A,Yoshiyuki T,et al.Effect of salt and osmotic stresses on the expression of genes for the vacuolar H+-pyrophosphatase,H+-ATPase subunit A,and Na+/H+ antiporter from barley[J].Journal of Experimental Botany,2004,55(397):585-594.

[17]吕慧颖,李银心,陈华.番杏Na+/H+逆向转运蛋白基因的克隆及特性分析[J].高技术通讯,200411:26-31(Lv H Y,Li Y X,Chen H.Na+/ H+ antiporter gene cloning and sequence analysis in Tetragonia[J].High Technology Letters,200411:26-31.)

[18]Brini F,Gaxiola R A,Berkowitz G A,et al.Cloning and characterization of a wheat vacuolar cation/proton antiporter and pyrophosphatase proton pump[J].Plant Physiology and Biochemistry,2005,43(4):347-354.

[19]Zorb C,Noll A,Karl S,et al.Molecular characterization of Na+/H+ antiporters(ZmNHX)of maize(Zea mays L.)and their expression under salt stress[J].Journal of Plant Physiology,2005,162(1):55-66.

[20]Lu S Y,Jin X Y,Li Y F.Antiporter gene from Hordum brevisubulatum(Trin.)link and its over expression in transgenic tobaccos[J].Journal of Integrative Plant Biology,2005,47(3):343-349.

[21]Zhang G H,Su Q,Wu S.Characterization and expression of a vacuolar Na+/H+antiporter gene from the monocot halophyte Aeluropus littoralis[J].Plant Physiology and Biochemistry,2008,46:117-126.

[22]张霞,曾幼玲,张富春.胡杨Na+/H+ 反向运输载体(PeNHX2)基因的克隆与序列分析[J].生物技术,2006,16(3):8-13(Zhang X,Zeng Y L,Zhang F C.Na+ / H+ antiporter gene cloning and sequence analysis in Populus’[J].Biotechnology,2006,16(3):8-13.)

[23]安宝燕,罗琰,高新起.紫花苜蓿Na+/H+逆向转运蛋白基因在拟南芥中表达提高转基因植株的耐盐性[J].作物学报,2008,34(4):557-564.(An B Y,Luo Y,Gao Y Q.Overexpression Alfalfa Na+ / H+ antiporter gene increased salt tolerance of Arabidopsis[J].Crops,2008,34(4):557-564.)

[24]赵祥强,汤巍,李鑫.互花米草中NHX基因片段的克隆与序列分析[J].安徽农业科学,2009,37(36):17878-17907.(Zhao X Q,Tang W,Li X.NHX gene cloning and sequence analysis in the Spartina[J].Journal of Anhui Agricultural Sciences,2009,37(36):17878-17907.)

[25]郭庆水,徐立新,于伟.木榄Na+ /H+ 逆向转运蛋白基因的克隆[J].热带生物学报,2010,1(2):105-109.(Guo Q S,Xu L X,Yu W.Na+/ H+antiporter gene cloning in Gymnorrhiza[J].Tropical Biology,2010,1(2):105-109.)

[26]Wu G Q,Xi J J,Wang S M.The ZxNHX gene encoding tonoplast Na+/H+ antiporter from the xerophyte Zygophyllum xanthoxylum plays important roles in response to salt and drought[J].Journal of Plant Physiology,2011,168(5):51149-51159.

[27]Saier M H,Eng B H,Hutchinson W J,et al.Phylogenic characterization of novel transport protein families revealed by genome analyses[J].Biochimica et Biophys Acta,1999,1422(1):1-56.

[28]Yokoi S,Beatriz Cubero,Jose M,et al.Differential expression and function of Arabidopsis thaliana NHX Na+/H+ antiporters in the salt stress response[J].The Plant Journal,2002,30(5):529-539.

[29]Zhang H X,Blumwald E.Transgenic salt-tolerant tomato Plants accumulate salt in fruit[J].Nature Biotechnology,2001,19:765-768.

[30]Zhang H X,Hodson J N,Blumwald E.Engineering salt tolerant Brassica plants:Characterization of yield and seed oil quality in transgenic plants with increased vacuolar sodium accumulation[J].Proceeding of the National Academy of Science of USA,2001,98:12832-12836.

[31]Ohta M,Hayashi Y,Hayakawa T.Introduction of a Na+/H+ antiporter gene from Atriplex gmelini confers salt tolerance to rice[J].FEBS Letters,2002,532(3):279-283.

[32]He C,Yan J,Zhang H,et al.Expression of an Arabidopsis vacuolar sodium/proton antiporter gene in cotton improves photosynthetic performance under salt conditions and increases fiber yield in the field[J].Plant Cell Physiology,2005,46(11):1848-1854.

[33]Wu Y Y,Chen Q J,Wang X C.Salt-tolerant transgenic perennial ryegrass(Lolium perenne L.)obtained by Agrobacterium tumefaciens-mediated transformationof the vacuolar Na+/H+antiporter gene[J].Plant Science,2005,169:65-73.

[34]Li B,Li N,Zhang J R,et al.Generation of marker-free transgenic maize with improved salt tolerance using the FLP/FRT recombination system[J].Journal of Biotechnology,2010,45:206-213.

[35]Tian N,Wang J,Xu Z Q.Overexpression of Na+/H+antiporter gene AtNHX1 from Arabidopsis thaliana improves the salt tolerance of kiwifruit(Actinidia deliciosa)[J].South African Journal of Botany,2011,77:160-169.


备注/Memo

基金项目:国家自然科学基金资助项目(3107438);黑龙江省教育厅课题资助项目(11551048);转基因生物新品种培育重大专项资助项目(2011ZX08004-002);东北农业大学博士后基金与博士启动基金资助项目(2009RC47)。

第一作者简介:李静(1984-) ,女,在读硕士,研究方向为大豆遗传育种及生物技术。E-mail: lijing191314@yahoo.com.cn。
通讯作者:武小霞(1971-),女,博士,研究员,从事大豆遗传育种与生物技术应用研究。E-mail: dadousuo@yahoo.com.cn。

更新日期/Last Update: 2014-08-18