豌豆根胞质V1—ATPase的鉴定

利用免疫印迹,免疫电镜和ATP水解活性的测定对豌豆（Pisum sativum L.)根细胞胞质中V1-ATPase复合物的存在进行鉴定。用兔抗绿豆V-typeH^ -ATPase的A,B亚基的抗体进行的immuno-blotting和胶体金电镜结果都表明,胞质中存在有A,B亚基。活性测定结果进一步表明胞质具有ATP水解活性,这些结果说明豌豆根胞质具有活性的V1-ATPase复合物。这是首次直接证明植物中有胞质V1-ATPase的存在。     

植物细胞质膜H+-ATPase的结构与功能

植物细胞质膜H+-ATPase属于P型质子泵。由该酶产生的跨膜电化学梯度是物质跨膜运输的原初动力。研究表明,质膜H+-ATPase与植物的生长发育密切相关,被称为植物细胞的“主宰酶”。近年,关于该酶的生化特性,基因表达与调控以及结构与功能等方面的研究取得重要进展。对质膜H+-ATPase的生化特性,分子结构,调节机制和生理功能等进行了综述。     

胡杨愈伤组织质膜的两相分离法及其H~+-ATPase的特性

以胡杨愈伤组织为材料,用PEG3350/DextranT500构成的两相系统提取质膜微囊,研究质膜H+-AT-Pase的特性。结果显示:由6.3%PEG3350、6.3%DextranT500、KCl、磷酸缓冲液(pH7.8)和蔗糖构成的两相系统提取膜微囊的H+-ATPase活性分别被Na3VO4、KNO3、NaN3抑制了约75%、2.6%和1.3%。方向性检测显示原位膜微囊占提取质膜微囊的90%,翻转膜微囊仅占10%。去垢剂对质膜H+-ATPase活性的影响说明0.015%的TritonX-100和0.01%～0.1%的Brij58适用于测定质膜H+-ATPase活性。Lineweaver-Burk动力学分析该酶的Km值为0.65mmol·L-1,Vmax为37.59μmolPi·mg-1protein·h-1。研究结果表明:两相法提取的质膜微囊主要是正向密闭的膜微囊;胡杨愈伤组织质膜H+-ATPase的最适pH为6.5,最适温度为37℃左右。     

空泡膜类型H~+-ATPase的研究进展

真核细胞内空泡细胞器,如高尔基体、内质网、溶酶体等,膜上存在的质子泵ATPase 与线粒体类型的质子泵 ATPase 类似.近几年对该类型 H~+-ATPase 的结构、作用机制进行了深入的研究,证明这是一类新型质子泵,在进化的过程中与线粒体类型的 H~+-ATPase 有密切的亲缘关系.     

三唑磷对小白菜中可溶性蛋白质及SOD、CAT、Ca2＋-ATPase和Mg2＋-ATPase活性的影响

使用一定浓度三唑磷农药喷洒小白菜后,测定7d中其体内可溶性蛋白质及抗氧化酶如SOD、CAT、和蛋白酶Mg2＋-ATPase、Ca2＋-ATPase的含量变化。结果表明．喷药后可溶性蛋白质在第2-4天含量相对于对照组减小,随后呈上升趋势：SOD和CAT在第2～6天均高于对照;而Mg2＋-ATPase、Ca2＋-ATPase第1～4天与对照相差不大,第5、6天略高于对照;第7天各物质都基本还原到与对照接近或持平。说明三唑磷喷洒后致使植物体内产生了大量氧自由基,进而诱导细胞内防御活性氧自由基毒害的物质产生。为食品卫生检测提供了一个参考标准．     

Na+,K+-ATPase亚单位表达的研究进展

以往研究已发现Na+,K+-ATPase含有α、β和γ亚单位.为了对三种亚单位有一个较为全面的认识,现对亚单位的基本结构、研究简况、生理及病理功能、表达调节等基本情况作一综述.     

大鼠单根近端肾小管Na+-K+-ATPase活性测定方法的改进

本研究旨在对Doucet等报道的定量检测大鼠单根近端肾小管Na^＋-K^＋-ATPase活性方法进行改进。取经过Ⅱ型胶原酶消化的大鼠肾脏皮质组织,在体视显微镜下手工分离单根近端肾小管,并测量其长度,经低渗和冻融处理后与[γ-^32P]ATP共同孵育,液闪法检测从[γ-^32P]ATP解离出的^32Pi,采用修正后的公式计算Na^＋-K^＋-ATPase活性。改良法与Doucet等的方法比较,测定单根近端肾小管Na^＋-K^＋-ATPase活性无显著性差异（P〉0．05）。改进后的方法节省试剂,操作简便、省时。     

绿豆下胚轴质膜微囊的提取和H+-ATPase 活性研究

以两相法提取纯化绿豆下胚轴质膜微囊,材料与两相体系重量之比为32∶8时,一次洗膜就可以得到纯度较高的质膜微囊。提取缓冲液中牛血清白蛋白的浓度对质膜H+-ATPase的潜在活性有影响。质膜H+-ATPase水解活性依赖于Mg2+,Ca2+对酶活性有明显的促进作用。壳梭孢素（fusicoccin, FC）对酶有明显的刺激作用,活体条件最大刺激达到72％,而离体条件下刺激为30％。     

绿豆下胚轴质膜微囊的提取和H+-ATPase活性研究

以两相法提取纯化绿豆下胚轴质膜微囊,材料与两相体系重量之比为32:8时,一次洗膜就可以得到纯度较高的质膜微囊.提取缓冲液中牛血清白蛋白的浓度对质膜H -ATPase的潜在活性有影响.质膜H -ATPase水解活性依赖于Mg2 ,Ca2 对酶活性有明显的促进作用.壳梭孢素(fusicoccin,FC)对酶有明显的刺激作用,活体条件最大刺激达到72%,而离体条件下刺激为30%.     

植物细胞质膜H+-ATPase的调控

综述了质膜H ATPase在转录、翻译及翻译后水平上所受调控现象及其机制的研究进展     

豌豆叶绿体偶联因子腺三磷酶的分离与纯化

豌豆叶绿体经焦磷酸钠盐溶液洗涤,并以加蔗糖的Tris—Tricine缓冲液作分离介质,其抽提液通过 DEAE—Sephadex A_59柱层析,可得较高纯度的腺三磷酶制剂。经免疫沉淀反应、需镁腺三磷酶活和 SDS—聚丙烯酸胺凝胶电泳证明,这种豌豆叶绿体偶联因子腺三磷酶具有五种蛋白带,与菠菜叶绿体偶联因子腺三磷酶的五种亚单位(α,β,γ,δ和ε亚单位)具有相近的分子量,但两者的α和β亚单位大小有异。     

The Changes of H+-ATPase During the Mitochondrial Development of Pea Cotyledon

Electron microscopic observation indicated that the mitochondrial membrane of pea cotyledon gradually developed into integral structure during seeds imbibition. ATP-synthesizing activity of H+-ATPase increased in company with mitochondrial development, but the content of F1-ATPase subunits was not different on the mitochondria of cotyledon imbibed for 6 hours and for 24 hours in water. After cotyledon was imbibed at low temperature, the content of γ and β subunits of F1-ATPase was distinctly reduced with the inhibition of H+-ATPase activity.     

Effects of Salt Stress on the Activity and the Amount of Tonoplast H+-ATPase from Pea Roots

To study the function and adaptive mechanism of tonoplast H+ATPase under salt stress, pea ( Pisum sativum L.) seedlings were treated with different concentrations of salt （100-250 mmol/L NaCl） and with 100 mmol/L NaCl for different days (1-3 d). The ATP hydrolytic activity and the proton transport activity and the changes of the amount of tonoplast H+ ATPase (subunit A) were measured. ATP hydrolytic activity of H+ATPase prepared from plants treated with 250 mmol/L NaCl was reduced by about 25% compared to that of control plants, but that of stressed plants treated with 100 mmol/L and 200 mmol/L NaCl was unchanged. The activity from plants treated with 100 mmol/L NaCl for up to 3 d was lower than that of control plants by 20%. But the proton transport activity was increased under the same salt stresses as above. These results showed that the changes of the hydrolytic activity and the proton transport activity were not in proportion and salt stress may cause the change of the coupling ratio of H+ transport activity to ATP hydrolysis. The protein amount kept unchanged and reduced a little only when pea was treated with 100 mmol/L NaCl for 3 d. These results indicated that salinity stimulated the increase of the pump efficiency of the V-ATPase from pea roots, which was due to the change of the coupling ratio, but not due to the increase of ATP hydrolysis and the amount of V-ATPase.     

Cytosolic sodium regulation in mouse cortical astrocytes and its dependence on potassium and bicarbonate

Sodium plays a major role in different astrocytic functions, including maintenance of ion homeostasis and uptake of neurotransmitters and metabolites, which are mediated by different Na⁺-coupled transporters. In the current study, the role of an electrogenic sodium-bicarbonate cotransporter (NBCe1), a sodium-potassium-chloride transporter 1 (NKCC1) and sodium-potassium ATPase (Na⁺-K⁺-ATPase) for the maintenance of [Na⁺]_i was investigated in cultured astrocytes of wild-type (WT) and of NBCe1-deficient (NBCe1-KO) mice using the Na⁺-sensitive dye, asante sodium green-2. Our results suggest that cytosolic Na⁺ was higher in the presence of CO₂/HCO₃⁻ (15 mM) than CO₂/HCO₃⁻-free, HEPES-buffered solution in WT, but not in NBCe1-KO astrocytes (12 mM). Surprisingly, there was a strong dependence of cytosolic [Na⁺] on the extracellular [HCO₃⁻] attributable to NBCe1 activity. Pharmacological blockage of NKCC1 with bumetanide led to a robust drop in cytosolic Na⁺ in both WT and NBCe1-KO astrocytes by up to 6 mM. There was a strong dependence of the cytosolic [Na⁺] on the extracellular [K⁺]. Inhibition of the Na⁺-K⁺-ATPase led to larger increase in cytosolic Na⁺, both in the absence of K⁺ as compared with the presence of ouabain and in NBCe1-KO astrocytes as compared with WT astrocytes. Our results show that cytosolic Na⁺ in mouse cortical astrocytes can vary considerably and depends greatly on the concentrations of HCO₃⁻ and K⁺, attributable to the activity of the Na⁺-K⁺-ATPase, of NBCe1 and NKCC1.     

玉米根尖细胞液泡膜结合的蛋白激酶的存在及其性质

为了解液泡膜蛋白在植物细胞信号途径中的功能,用新型的非放射性同位素方法从玉米根细胞的高纯度液泡膜上鉴定出一种膜内在的蛋白激酶.这种蛋白激酶具有Ca2+依赖、CaM和磷脂酰丝氨酸不依赖等特性,与已在多种植物中报道的含有类似钙调素结构域的蛋白激酶CDPK相似.离体实验表明其活性的最适pH值为6.5,最适Ca2+浓度为10 μmol/L.从最适pH值和去污剂的影响可以推测出其活性位点朝向胞质一侧.Zn2+对其活性没有明显的抑制作用,说明该激酶缺少某些哺乳动物的蛋白激酶常含有的锌指结构.当液泡膜蛋白在Ca2+和ATP存在的条件下被预磷酸化后,液泡膜H+-ATPase的ATP水解和质子转运过程均被激活.激活的活性可以被碱性磷酸酶逆转.以上结果说明玉米根尖细胞的液泡膜中存在一种可能是CDPK的蛋白激酶.由它造成的Ca2+依赖的磷酸化作用激活了液泡膜H+-ATPase的活性.这些结果将有助于深入研究CDPK在植物细胞信号转导中的功能.     

Association of 14-3-3 proteins with the C-terminal autoinhibitory domain of the plant plasma-membrane H+-ATPase generates a fusicoccin-binding complex

The plant plasma-membrane H⁺-ATPase (EC 3.6.1.35) contains a C-terminal autoinhibitory domain whose displacement from the catalytic site is caused by treatment of intact plant tissue with the phytotoxin fusicoccin (FC). The FC-induced activation of the H⁺-ATPase was proposed to involve a direct interaction of 14-3-3 proteins with the H⁺-ATPase. By analysing plasma membranes derived from leaves of Commelina communis L., direct biochemical evidence has now been obtained for a complex between the C-terminus of the H⁺-ATPase and a 14-3-3 dimer. Stabilization of this complex was achieved by FC treatment in vivo or in vitro. Furthermore, the C-terminal domain of the H⁺-ATPase in association with a 14-3-3 dimer is essential for the creation of a functional FC-binding complex. Received: 1 August 1998 / Accepted: 15 September 1998     

乙醇对F_1-ATP酶和H~+-ATP酶的抑制与其核苷酸结合位点状态的关系

 本文利用动力学方法研究了乙醇对F_1-ATP酶和H~(+)-ATP酶复合体的抑制与其结合核苷酸位点状态的关系,结果表明天然情况下乙醇对F_1呈现反竞争性抑制类型,对H~(+)-ATP酶呈现非竞争性抑制类型,且乙醇对F_1和H~(+)-ATP酶的抑制与核苷酸结合位点的构象密切相关。游离状态下和膜结合状态下的F_1在部分结合的核苷酸被洗脱前后动力学行为的不同,反映了二种状态下的F_1具有不同的构象,且F_0和膜脂对F_1起着一定的调控作用。     

Involvement of 14-3-3 proteins in the osmotic regulation of H+-ATPase in plant plasma membranes

 Taking the binding of fusicoccin to plasma membranes as an indicator of complex formation between the 14-3-3 dimer and H⁺-ATPase, we assessed the effect of osmotic stress on the interaction of these proteins in suspension-cultured cells of sugar beet (Beta vulgaris L.). An increase in osmolarity of the cell incubation medium, accompanied by a decrease in turgor, was found to activate the H⁺ efflux 5-fold. The same increment was observed in the number of high-affinity fusicoccin-binding sites in isolated plasma membranes; the 14-3-3 content in the membranes increased 2- to 3-fold, while the H⁺-ATPase activity changed only slightly. The data obtained indicate that osmotic regulation of H⁺-ATPase in the plant plasma membrane is achieved via modulation of the coupling between H⁺ transport and ATP hydrolysis, and that such regulation involves 14-3-3 proteins. Received: 10 February 2000 / Accepted: 31 March 2000