Na+/H+ 逆向转运蛋白与植物耐盐性关系

Na+/H+ 逆向转运蛋白与植物的耐盐性有密切的关系。在高等植物体内,主要存在两种Na+/H+ 逆向转运蛋白,分别为位于细胞质膜上的逆向转运蛋白SOS1,以及存在于液泡膜上的AtNHX1。质膜Na+/H+ 逆向转运蛋白主要负责Na+ 的外排,液泡膜Na+/H+ 逆向转运蛋白主要负责把Na+ 区隔化入液泡。过量表达质膜Na+/H+ 逆向转运蛋白SOS1或液泡膜Na+/H+ 逆向转运蛋白AtNHX1能够明显提高植物的耐盐性。本文对植物中Na+/H+ 逆向转运蛋白及其与植物耐盐性之间的关系研究最新进展作一概述。     

RLM-RACE法扩增獐茅液泡膜Na+/H+逆向转运蛋白基因5''-cDNA末端序列

根据已获得的盐生植物獐茅(Aeluropus littoralis var.sinensis Debeaux)液泡膜Na+/H+逆向转运蛋白(Na+/H+antiporter)基因部分cDNA片段,设计2条特异引物(GSP1、GSP2),采用RLM-RACE(RNA ligase-mediated rapid amplification of 5'and 3'cDNA ends)法获得了其5'-cDNA末端序列,并找出了转录起始位点.该片段长816 bp,与芦苇液泡膜Na+/H+逆向转运蛋白基因序列同源性最高达91%,与拟南芥、盐角草、水稻、大麦、小麦的同源性分别为81%、82%、86%、87%和81%,为该基因全长的克隆及启动子的研究奠定了基础.与其它测定基因转录起始位点的方法相比,RLM-RACE方法更快捷、简便、准确.     

新疆盐生植物车前PmNHX1基因的克隆及生物信息学分析

盐分对植物的伤害主要是Na+引起的,而Na+/H+逆向运输蛋白催化Na+/H+逆向跨膜运输,从而使质膜上Na+运出细胞和液泡膜中的Na+区隔化。这是植物尤其是盐生植物抵御盐胁迫的主要方式之一。根据不同植物编码液泡膜逆向运输蛋白基因的保守序列,设计简并引物,采用RT-PCR和RACE技术,首次从新疆盐生植物车前（Plantago maritima）中克隆到Na+/H+逆向运输蛋白基因的cDNA全长2464 bp,命名为PmNHX1(GenBank登录号：EU233808),该基因编码区长为1 662bp,编码553个氨基酸,理论分子量为61.16kDa,等电点为7.22。数据分析结果显示,该蛋白质主要定位于液泡膜上,由12个序列保守的跨膜结构域组成,其中TM3跨膜结构域上存在“LFFIYLLPPI”-氨氯吡嗪咪结合域,并且该位点与Na+有竞争作用。PmNHX1逆向运输蛋白与其他植物逆向运输蛋白的氨基酸同源性为64％~80％。通过生物信息学方法对其理化性质和功能分析进行预测,这为进一步研究转耐盐基因PmNHX1及其功能鉴定奠定了基础。     

植物Na+/H+逆向转运蛋白研究进展

盐胁迫主要由Na+引起,过高的Na+浓度引起的离子毒害,渗透胁迫和K+/Na+比率的不平衡使植物新陈代谢异常,这是对大多数器官造成伤害的原因。植物抵御盐胁迫的主要方式是将细胞内过多的Na+从质膜向细胞外排放和将Na+在液泡中区隔化,这一过程是由Na+/H+ 逆向转运蛋白完成的。本文概述了植物中Na+/H+ 逆向转运蛋白的发现、特征、分子生物学方面的研究,以及Na+/H+ 逆向转运蛋白在植物耐盐性中的重要作用。     

北美海蓬子SbNHX1基因耐盐性及功能结构域分析

对从北美海蓬子中分离的Na+/H+逆向转运蛋白基因SbNHX1进行了耐盐性及功能结构域分析.利用套叠PCR技术去除SbNHX1基因C末端162个核苷酸,得到SbNHX1-C基因,然后将SbNHX1、SbNHX1-C和拟南芥Na+/H+ 逆向转运蛋白基因AtNHX1分别插入pET22b(+)表达载体,转化大肠杆菌B菌株,进行各种金属盐离子胁迫分析.结果表明,北美海蓬子Na+/H+ 逆向转运蛋白基因SbNHX1只对Na+ 、K+离子有抗性,且耐盐性强于拟南芥Na+/H+ 逆向转运蛋白基因AtNHX1.缺失C末端的SbNHX1-C基因对Na+、K+离子胁迫无抗性,说明北美海蓬子Na+/H+ 逆向转运蛋白基因SbNHX1的耐盐作用与该基因C末端1 353 bp至1 514 bp的序列密切相关.     

植物Na+/H+反向转运蛋白的研究进展

盐胁迫是限制植物生长发育的主要因素之一,植物Na+/H+反向转运蛋白可通过将Na+逆向转运出细胞外或将Na+区隔化于液泡中来抵制环境中过高的Na+浓度.植物中Na+/H+反向转运蛋白存在于细胞质膜和液泡膜上,现在已得到多种编码这些Na+/H+反向转运蛋白的基因,对其结构功能特性进行了大量研究,并发现将这些基因转入非抗盐植物中过量表达可提高转基因植物的抗盐性.概述了Na+/H+反向转运蛋白及其编码基因的最新研究进展.     

菊芋Na+/H+逆向转运蛋白基因的克隆与表达分析

根据同源序列设计简并引物,通过RT-PCR及RACE的方法从菊芋中克隆了Na /H 逆向转运蛋白基因。序列分析表明,该基因全长2148 bp,开放读码框为1647 bp,可编码长549个氨基酸的多肽,与其它植物已克隆的Na /H 逆向转运蛋白具有很高的同源性。系统发育分析表明该蛋白(HtNHX1)与液泡型Na /H 逆向转运蛋白的亲缘关系较近,与质膜型Na /H 逆向转运蛋白亲缘关系较远。NaCl胁迫条件下RT-PCR检测结果表明,HtNHX1随NaCl浓度增加和处理时间延长表达持续增强,但到了第3天表达量开始下降。HtNHX1逆向转运蛋白基因的转录调控可能是决定菊芋耐盐能力的一个重要因素。     

喜盐鸢尾Na~+/H~+逆转运蛋白基因IhNHX1的克隆及序列分析

采用同源克隆和RACE法克隆获得喜盐鸢尾(Iris halophila Pall.)Na+/H+逆转运蛋白基因IhNHX1的全长序列,该基因序列的全长为1 946 bp,包含1个长度为1 611 bp的开放阅读框(ORF),编码537个氨基酸。序列对比及系统树分析结果表明:IhNHX1基因编码的氨基酸序列与另外11种植物NHX1基因编码的氨基酸序列的一致性高达96.2%,相同序列占61.7%,表明该氨基酸序列保守性较高;在系统树上喜盐鸢尾与其他植物的分支长均大于1.2,表明它们的亲缘关系均较远;IhNHX1基因编码的氨基酸序列含有2个保守结构域,即氨氯吡嗪结合位点和CaM结合结构域,分别是NHX1蛋白的标志性结合位点和重要调节区域。该蛋白质的二级结构和跨膜结构域分析结果表明:在IhNHX1基因编码的蛋白质的二级结构中,α螺旋占48.60%、不规则卷曲占32.03%、延伸链占14.71%、氢键转角占4.66%;该蛋白质含有10个跨膜结构域。此外,对5’RACE方法中5’端正向引物的优化设计步骤进行了归纳,以提高PCR扩增的特异性。     

荷花液泡膜型Na^＋/H^＋逆向转运蛋白基因NnNHX1的克隆与特性分析

采用简并引物和RACE等技术从荷花中分离出液泡膜型Na＋/H＋逆向转运蛋白基因NHX1的全长cDNA序列,命名为NnNHX1。该基因全长2237bp,预测其编码一个由538个氨基酸组成的多肽,其N-端是一个由11个跨膜结构组成的疏水区域,C-端是一个亲水的尾巴。序列比对表明,NnNHX1与葡萄NHX1等的同源性较高,并且都具有高度保守的氨氯吡嗪咪结合位点序列LFFIYLLPPI。系统进化树表明NnNHX1与液胞膜型Na＋/H＋逆向转运蛋白关系较近,而与质膜型Na＋/H＋逆向转运蛋白关系较远。qRT-PCR结果显示NnNHX1基因在植株中属于组成型表达,但经NaCl诱导后,根中NnNHX1的表达量急剧增高后又迅速下降,而叶中的表达量却先缓慢增加后又剧烈下降。     

细菌Na+/H+逆向转运蛋白的研究进展

Na+/H+逆向转运蛋白在维持细胞内pH稳态、Na+离子动态平衡和调控细胞体积方面发挥着重要作用。目前,细菌中许多参与高盐或高碱性环境压力应答的Na+/H+逆向转运蛋白得到了鉴定和功能阐释。继续挖掘高效的Na+/H+逆向转运蛋白,深入探究Na+/H+逆向转运蛋白的分子机理,将为工业菌株或农作物的改良提供新的研究思路。本文以4种模式菌株为例,简要概述细菌Na+/H+逆向转运蛋白的种类和特征,同时对其结构和功能等方面也进行探讨。     

Mutational analysis of amiloride sensitivity of the NhaA Na+/H+ antiporter from Vibrio parahaemolyticus.

The activity of the NhaA Na+/H+ antiporter of Vibrio parahaemolyticus is inhibited by amiloride. We found an amino acid sequence in the NhaA that was identical to a putative amiloride binding domain of the Na+/H+ exchanger in mammalian cells. We constructed mutant NhaAs that had amino acid substitutions in the putative amiloride binding domain by site-directed mutagenesis. These include V62L (Val62 replaced by Leu), F63Y, F64Y, and L65F. Most mutant NhaAs showed decreased sensitivity for amiloride. Among these, the F64Y mutant NhaA showed the least amiloride sensitivity, with a Ki value 7 to 10 times greater than that in the wild type. Thus, the sequence between residues V62 and L65 in NhaA, especially F64, is very important for the inhibitory effect of amiloride on the antiporter.     

Molecular cloning, primary structure, and expression of the human growth factor-activatable Na+/H+ antiporter

We present the complete sequence of a cDNA encoding the human amiloride-sensitive Na+/H+ antiporter. After functional complementation of a mouse fibroblast mutant by gene transfer, we isolated a 0.8 kb genomic probe from a third-cycle mouse transformant. The probe detects gene amplification in Na+/H+ antiporter "overexpressers" and a single class of mRNA of ca. 5.6 kb in human, mouse, and hamster cells. With this probe we isolated a 4 kb cDNA from a library constructed from a mouse transformant in which the transfected human gene was amplified. This cDNA includes a noncoding leader of 407 bp, a 2682 bp open reading frame, and a 3' noncoding sequence containing a mouse B1 repeated element. The amino acid sequence predicts a protein of Mr = 99,354 with an N-terminal amphipathic domain that contains 10 putative transmembrane-spanning segments and two potential glycosylation sites, followed by a hydrophilic stretch of 395 residues, presumably cytoplasmic. Stable expression of the transfected cDNA in Na+/H+ antiporter-deficient cells restored the key functional features of this transporter: H+i-activated Na+ influx, amiloride sensitivity, and pHi regulation.     

Antiidiotypic antibody recognizes an amiloride binding domain within the alpha subunit of the epithelial Na+ channel

We previously raised an antibody (RA6.3) by an antiidiotypic approach which was designed to be directed against an amiloride binding domain on the epithelial Na+ channel (ENaC). This antibody mimicked amiloride in that it inhibited transepithelial Na+ transport across A6 cell monolayers. RA6.3 recognized a 72-kDa polypeptide in A6 epithelia treated with tunicamycin, consistent with the size of nonglycosylated Xenopus laevis alphaENaC. RA6.3 specifically recognized an amiloride binding domain within the alpha-subunit of mouse and bovine ENaC. The deduced amino acid sequence of RA6.3 was used to generate a three-dimensional model structure of the antibody. The combining site of RA6.3 was epitope mapped using a novel computer-based strategy. Organic residues that potentially interact with the RA6.3 combining site were identified by data base screening using the program LUDI. Selected residues docked to the antibody in a manner corresponding to the ordered linear array of amino acid residues within an amiloride binding domain on the alpha-subunit of ENaC. A synthetic peptide spanning this domain inhibited the binding of RA6.3 to alphaENaC. This analysis provided a novel approach to develop models of antibody-antigen interaction as well as a molecular perspective of RA6.3 binding to an amiloride binding domain within alphaENaC.     

小麦Na+/H+反转运蛋白基因的克隆和特性

以水稻(Oryza sativa L.) Na+/H+反转运蛋白cDNA片段为探针,从小麦盐胁迫cDNA文库中筛选和克隆了2个小麦Na+/H+反转运蛋白基因,分别命名为TaNHX1 和 TaNHX2.序列分析表明TaNHX1为2 029 bp,包含一个完整的1 638 bp的ORF,编码546个氨基酸,其中含有DIFFIYLLPPI跨膜区.TaNHX2为1 693 bp,包含部分ORF及808 bp的3′-UTR.这2个基因与已知的水稻、拟南芥(Arabidopsis thialiana)和滨藜(Atriplex gmelini)中的同类基因NHX的相似性约为70%.RT-PCR分析表明小麦苗经400 mmol/L NaCl处理1 h后,TaNHX1的转录水平有所提高.     

Atrial Natriuretic Peptide Modulates Amiloride-Sensitive Na+ Transport Across the Blood-Brain Barrier

We obtained evidence that amiloride specifically potentiates 125I-labeled alpha-rat atrial natriuretic peptide (1-28) [atrial natriuretic peptide (ANP)-(99-126); rANP] binding to cerebral capillaries isolated from the rat cerebral cortex. The binding parameters, KD of 173 pM and Bmax of 159 fmol/mg of protein, became 33 pM and 88 fmol/mg of protein, respectively, when 10(-4) M amiloride was added to the incubation medium. When the effect of rANP was investigated on in vitro 22Na+ uptake into isolated cerebral capillaries, 10(-7) M rANP significantly inhibited the uptake in the presence of 1.0 mM ouabain, 1.0 mM furosemide, and 2.0 mM LiCl in the uptake buffer, a finding suggesting a specific inhibitory effect of rANP on amiloride-sensitive Na+ transport. Thus, the possibility that ANPs control amiloride-sensitive Na+ transport at the blood-brain barrier by interacting with specific receptors has to be considered.     

Molecular cloning and expression of a cDNA encoding the rabbit ileal villus cell basolateral membrane Na+/H+ exchanger.

A cDNA clone encoding a rabbit ileal villus cell Na+/H+ exchanger was isolated and its complete nucleotide sequence was determined. The cDNA is 4 kb long and contains 322 bp of 5'-untranslated region, 2451 bp of open reading frame and 1163 bp of 3'-untranslated area, with 70%, 91% and 40% identity to the human sequence, respectively. Amino acid sequence deduced from the longest open reading frame indicated a protein of 816 residues (predicted Mr 90,716) which exhibits 95% amino acid identity to the human Na+/H+ exchanger. The two putative glycosylation sites in the human Na+/H+ exchanger are conserved in this protein, suggesting that it is a glycoprotein. Stable transfection of the cDNA into an Na+/H+ exchanger deficient fibroblast cell line, established Na+/H+ exchange. The Na+/H+ exchanger was stimulated by serum and a phorbol ester but not by 8-Br-cAMP. In Northern blot analysis, the cDNA hybridized to a 4.8 kb message in rabbit ileal villus cells, kidney cortex, kidney medulla, adrenal gland, brain and descending colon and to a 5.2 kb message in cultured human colonic cancer cell lines, HT29-18 and Caco-2. In immunoblotting, a polyclonal antibody raised against a fusion protein of beta-galactosidase and the C-terminal 158 amino acids of the human Na+/H+ exchanger identified a rabbit ileal basolateral membrane protein of 94 kd and only weakly interacted with the ileal brush border membrane. In immunocytochemical studies using ileal villus and crypt epithelial cells, the same antibody identified basolateral and not brush border epitopes. Restriction analysis of genomic DNA with a 462 bp PstI-AccI fragment of the rabbit Na+/H+ exchanger strongly suggests the existence of closely related Na+/H+ exchanger genes. The near identity of the basolateral Na+/H+ exchanger and the human Na+/H+ exchanger plus the ubiquitous expression of this message suggests that the ileal basolateral Na+/H+ exchanger is the 'housekeeping' Na+/H+ exchanger.     

三疣梭子蟹Na+/H+-exchanger基因克隆鉴定及在盐度胁迫下的表达分析

为研究Na+/H+-exchanger基因在三疣梭子蟹（Portunus trituberculatus）盐度胁迫过程中的功能作用,克隆了三疣梭子蟹Na+/H+-exchanger基因并进行表达分析。结果显示,Na+/H+-exchanger基因（GenBank:KU519329）全长4233 bp,5和3非编码区（UTR）长分别为519和753 bp,开放阅读框（ORF）长2961 bp。编码986个氨基酸,预测蛋白质分子量和等电点分别为110.8 kD和7.42,具有信号肽和典型的Na+/H+-exchanger蛋白结构域,含12个跨膜螺旋;三疣梭子蟹Na+/H+-exchanger基因与普通滨蟹（Carcinus maenas）同源性最高,达到87.2%,系统进化分析也显示该序列与普通滨蟹聚为一支;表达分析显示,三疣梭子蟹Na+/H+-exchanger基因在鳃中表达量最高;在低盐（盐度5、10和20）胁迫过程中,Na+/H+-exchanger基因在0-12h上调表达明显,在24-168h间表达量呈下降趋势;在高盐（盐度50）胁迫初期（0-12h）,该基因表达量相对稳定,之后（24-168h）显著下调表达。研究表明低盐显著诱导Na+/H+-exchanger基因的高表达,推测三疣梭子蟹Na+/H+-exchanger基因在低盐环境下发挥重要的渗透调节功能。     

双齿围沙蚕诱导型热休克蛋白70基因的克隆及Cu胁迫下的表达分析

本研究主要评估了双齿围沙蚕热休克蛋白70(HSP70)基因的分子特征,记录了其对于液态Cu²⁺胁迫的基因表达情况,并通过测序获得的HSP70 cDNA序列与其他沙蚕及无脊椎动物HSP70同源性比对来判定蛋白特性.结果表明: 该HSP70基因全长cDNA序列共2161 bp,包括5′非翻译区48 bp,3′非翻译区142 bp,一个多聚腺苷酸信号序列(AATAAA)和Poly A尾巴以及开放阅读框1971 bp.阅读框共编码656个氨基酸,总分子量为71.43 kD,理论等电点为5.15.该氨基酸序列中含有HSP70家族的3个签名序列——IDLGTTYS、IFDLGGGTFDVSIL和IVLVGGSTRIPKIQK,以及细胞质特异性调控基序EEVD,C端重复序列GGMP.同源性分析表明,本研究所获双齿围沙蚕HSP70氨基酸序列与已报道的序列相似性高达94%,与其他无脊椎生物的HSP70相似性也高达79%以上.荧光实时定量PCR分析表明,Cu²⁺(0.2～5.0 mg·L^-1)胁迫能够显著诱导沙蚕HSP70 mRNA表达,并于1 d后达到峰值.本研究系统描述了双齿围沙蚕HSP70的分子特性,其可被液态Cu²⁺诱导表达,具备作为环境污染分子生物标记物的潜力.