唐古特白刺质膜Na+/H+逆向转运蛋白基因的克隆与表达分析

doi:10.11686/cyxb20130422

摘要/Abstract

摘要： 土壤中过多的Na⁺会导致植物产生盐害,严重影响植物的生长和发育。质膜型Na⁺/H⁺逆向转运蛋白SOS1介导植物细胞内过量的Na⁺外排,在植物抵御盐胁迫过程中起着重要的作用。唐古特白刺隶属于蒺藜科白刺属,是中国特有的盐生植物,主要生长于西北地区的荒漠或盐渍化荒漠,具有极强的抗逆能力。应用简并RT-PCR及RACE技术克隆获得唐古特白刺Na⁺/H⁺逆向转运蛋白NtSOS1基因(GenBank登录号KC292267)。序列分析显示,该 cDNA全长4 008 bp,包含3 492 bp的开放阅读框,编码分子量为127.59 kDa的蛋白质。疏水性分析预测NtSOS1基因编码蛋白N端具有11个跨膜结构域,C端具有一个面向胞质的长亲水尾部,包含保守环核苷酸结合区域、自我抑制基序及磷酸化位点等多个活性调控结构域。NtSOS1氨基酸序列与葡萄、霸王、拟南芥等植物的SOS1序列同源性较高,分别可达71.77%,68.94%,62.65%。系统发育分析表明NtSOS1基因为质膜型Na⁺/H⁺逆向转运蛋白,与液泡型Na⁺/H⁺逆向转运蛋白属于不同分支。半定量RT-PCR结果显示冷、热、盐和干旱胁迫都可以诱导NtSOS1基因的表达,同时,NtSOS1基因随着盐处理浓度增加呈现出先上升(0~300 mmol/L)后下降(400 mmol/L)的趋势。结合植物的生境特点和NtSOS1表达模式分析,该基因表达水平的升高可能在唐古特白刺适应恶劣生境的过程中发挥积极作用。本研究的开展为利用NtSOS1基因进行作物与牧草改良并深入研究唐古特白刺抗逆分子机制奠定了基础。

Abstract: Excessive concentrations of the sodium ion in soil is a major constraint to plant growth and development. The plasma membrane Na⁺/H⁺ antiporter salt overly sensitive SOS1 is responsible for Na⁺ effluxes from cells, and it plays a crucial role in plant salinity tolerance. Nitraria tangutorum, a shrub belonging to the Nitratia genus in Zygophyllaceae, is a native and typical halophyte mainly growing in deserts or salinity deserts in the northwest of China. It is an excellent species noted for its superior tolerance ability to diverse abiotic stresses. A full length cDNA of NtSOS1 (GenBank accession number KC292267) was isolated from this species by means of degenerate PCR and RACE. NtSOS1 cDNA was 4 008 bp long and comprised a 3 492 bp open reading frame that was predicted to encode a 127.59 kDa protein with 11 hypothetical transmembrane domains within its N terminal portion, and a long hydrophilic cytoplasmic tail with some regulatory domains including cyclic nucleotide binding domain, auto-inhibitory motifs and phosphorylation sites in its C-terminal portion. The amino acid sequences of NtSOS1 show 71.77%, 68.94% and 62.65% identity to homologues from Vitis vinifera, Zygophyllum xanthoxylum and Arabidopsis thaliana, respectively. Phylogenetic analysis showed that NtSOS1 appeared to be a plasma membrane Na⁺/H⁺ antiporter and clustered distantly with vacuolar Na⁺/H⁺ antiporters. The level of NtSOS1 mRNA was clearly up-regulated in the presence of NaCl, PEG, cold and heat stress. Furthermore, NtSOS1 transcript abundance was positively associated with NaCl concentration till 300 mmol/L, while it was reduced under 400 mmol/L NaCl treatment. These results suggest that increased expression of NtSOS1 may be involved in the adaptability of N. tangutorum to the hostile environment. Our work offers a solid foundation for genetic improvement of the crops and herbages with NtSOS1 gene and in-depth study of the molecular mechanisms of stress tolerance of N. tangutorum.

中图分类号:

Q943.2

郑琳琳,张慧荣,贺龙梅,王迎春. 唐古特白刺质膜Na⁺/H⁺逆向转运蛋白基因的克隆与表达分析[J]. 草业学报, 2013, 22(4): 179-186.

ZHENG Lin-lin, ZHANG Hui-rong, HE Long-mei, WANG Ying-chun. Isolation and expression analysis of a plasma membrane Na⁺/H⁺ antiporter from Nitraria tangutorum[J]. Acta Prataculturae Sinica, 2013, 22(4): 179-186.

参考文献

马清, 包爱科, 伍国强, 等. 质膜Na⁺/H⁺逆向转运蛋白与植物耐盐性. 植物学报, 2011, 46(2): 206-215.
Zhu J K. Plant salt tolerance. Trends in Plant Science, 2001, 6(2): 66-71.
Zhu J K. Regulation of ion homeostasis under salt stress. Current Opinion Plant Biology, 2003, 6: 441-445.
Ratner A, Jacoby B. Effect of K⁺, its counter anion, and pH on sodium efflux from barley root tips. Journal of Experimental Botany, 1976, 27(5): 843-852.
Shi H, Ishitani M, Kim C, et al. The Arabidopsis thaliana salt tolerance gene SOS1 encodes a pupative Na⁺/H⁺ antiporter. Proceedings of National Academy of Sciences of the United States of America, 2000, 97(12): 6896-6901.
赵祥强. 玉米Na⁺/H⁺逆向转运蛋白基因ZmSOS1的克隆与鉴定. 安徽农业科学, 2009, 37(35): 17843-17848.
王澍, 任晴雯, 樊国盛. 黄瓜质膜型Na⁺/H⁺逆向转运蛋白基因(SOS1)的克隆与序列分析. 上海交通大学学报 (农业科学版), 2012, 30(3): 6-10.
Martinez-Atienza J, Jiang X Y, Garciadeblas B, et al. Conservation of the salt overly sensitive pathway in rice. Plant Physiology, 2007, 143(2): 1001-1012.
Maughan P J, Turner T B, Coleman C E, et al. Characterization of Salt Overly Sensitive 1 (SOS1) gene homoeologs in quinoa (Chenopodium quinoa Willd.). Genome, 2009, 52: 647-657.
Olias R, Eljakaoui Z, Li J, et al. The plasma membrane Na⁺/H⁺ antiporter SOS1 is essential for salt tolerance in tomato and affects the partitioning of Na⁺ between plant organs. Plant, Cell & Environment, 2009, 32(7): 904-916.
王生银, 马清, 王锁民. 盐生植物盐地碱蓬质膜Na⁺/H⁺逆向转运蛋白基因片段的克隆及其序列分析. 草业科学, 2012, 29(6): 918-923.
周玲玲, 祝建波, 曹连莆. 大叶补血草Na⁺/H⁺逆向转运蛋白基因(SOS1)的克隆与序列分析. 园艺学报, 2009, 36(9): 1353-1358.
Wang X, Yang R, Wang B C, et al. Functional characterization of a plasma membrane Na⁺/H⁺ antiporter from alkali grass (Puccinellia tenuiflora). Molecular Biology Reports, 2011, 38: 4813-4822.
Kobayashi S, Abe N, Yoshida K T, et al. Molecular cloning and characterization of plasma membrane-and vacuolar-type Na⁺/H⁺ antiporters of an alkaline-salt-tolerant monocot, Puccinellia tenuiflora. Journal of Plant Research, 2012, 125: 587-594.
Wu Y X, Ding N, Zhao X, et al. Molecular characterization of PeSOS1: the putative Na⁺/H⁺ antiporter of Populus euphratica. Plant Molecular Biology, 2007, 65: 1-11.
Song A, Lu J, Jiang J, et al. Isolation and characterisation of Chrysanthemum crassum SOS1, encoding a putative plasma membrane Na⁺/H⁺ antiporter. Plant Biology, 2012, 14: 706-713.
王鹤, 张高华, 王旭达, 等. 獐茅耐盐基因SOS1的克隆及序列分析. 中国农业大学学报, 2012, 17(3): 28-33.
马苏勇, 祝建波, 王爱英. 大叶补血草质膜Na⁺/H⁺逆向转运蛋白基因SOS1的克隆及对番茄的遗传转化. 生物技术通报, 2010, 9: 111-115.
Yue Y S, Zhang M C, Zhang J C, et al. SOS1 gene overexpression increased salt tolerance in transgenic tobacco by maintaining a higher K⁺/ Na⁺ ratio. Journal of Plant Physiology, 2012, 169: 255-261.
Shi H, Lee B H, Wu S J, et al. Overexpression of a plasma membrane Na⁺/H⁺ antiporter gene improves salt tolerance in Arabidopsis thaliana. Nature Biotechnology, 2003, 21: 81-85.
Xu H X, Jiang X Y, Zhan K H, et al. Functional characterization of a wheat plasma membrane Na⁺/H⁺ antiporter in yeast. Archives of Biochemistry and Biophysics, 2008, 473: 8-15.
Gao X H, Ren Z H, Zhao Y X, et al. Overexpression of SOD2 increases salt tolerance of Arabidopsis. Plant Physiology, 2003, 133: 1873-1881.
Takahashi R, Liu S, Takano T. Isolation and characterization of plasma membrane Na⁺/H⁺ antiporter genes from salt-sensitive and salt-tolerant reed plants. Journal of Plant Physiology, 2009, 166: 301-309.
Yang Y L, Shi R X, Wei X L, et al. Effect of salinity on antioxidant enzymes in calli of the halophyte Nitraria tangutorum Bobr.. Plant Cell Tissue and Organ Culture, 2010, 102: 387-395.
Yang Y L, Wei X L, Shi R X, et al. Salinity-induced physiological modification in the callus from halophyte Nitraria tangutorum Bobr.. Journal of Plant Growth Regulation, 2010, 29: 465-476.
郝媛媛, 岳利军, 康建军, 等. “沙漠人参”肉苁蓉和锁阳研究进展. 草业学报, 2012, 21(2): 286-293.
陆海, 张建秋, 张玉玲, 等. 一种优化的mRNA差异显示技术分析白刺盐碱胁迫表达相关基因研究. 成都大学学报(自然科学版), 2004, 23(2): 1-6.
张建秋, 陆海, 王智, 等. 白刺盐碱胁迫相关基因片段的克隆与分析. 吉林农业大学学报, 2004, 26(3): 275-279.
李玉坤, 王学敏, 王赞, 等. 东方山羊豆脱水蛋白基因的克隆及初步分析. 草业学报, 2012, 21(1): 176-183.
贾会丽, 王学敏, 高洪文, 等. 紫花苜蓿γ-生育酚甲基转移酶(γ-TMT)基因的克隆与逆境下的表达分析. 草业学报, 2012, 21(6): 198-206.
王丽, 黎妃凤, 张文波, 等. 西伯利亚白刺肌动蛋白基因的分离与特性分析. 草业学报, 2012, 21(4): 151-158.
Qiu Q S, Guo Y, Dietrich M A. Regulation of SOS1, a plasma membrane Na⁺/H⁺ antiporter in Arabidopsis thaliana, by SOS2 and SOS3. Proceedings of National Academy of Sciences of the United States of America, 2002, 99: 8436-8441.
Oh D H, Gong Q Q, Ulanov A, et al. Sodium stress in the halophyte Thellungiella halophila and transcriptional changes in a thsos1-RNA interference line. Journal of Integrative Plant Biology, 2007, 49: 1484-1496.
Quintero F J, Martinez-Atienza J, Villalta I, et al. Activation of the plasma membrane Na⁺/H⁺ antiporter Salt-Overly-Sensitive 1 (SOS1) by phosphorylation of an auto-inhibitory C-terminal domain. Proceedings of National Academy of Sciences of the United States of America, 2011, 108(6): 2611-2616.
李博. 内蒙古鄂尔多斯高原自然资源与环境研究. 北京: 科学出版社, 1990: 11-13.

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