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1.
胡杨液泡膜H+-ATPase的部分纯化及其耐盐性研究   总被引:3,自引:3,他引:0  
为了阐明液泡膜H^ -ATPase在盐胁迫下的作用和适应性机制,对悬浮培养的胡杨细胞在50mmol/L盐浓度下处理10d,结果表明液泡膜H^ -ATPase、焦磷酸酶的水解活性、质子泵活性增加。将通过差速离心和不连续蔗糖密度梯度离心富积的液泡膜微囊先由脱氧胆酸钠(DOC)和n-辛基-β-D-葡萄糖(OG)分步破膜抽提,经蔗糖密度梯度离心分离,部分纯化的酶含V型H^ -ATPase的主要亚基。  相似文献   

2.
胡杨液泡膜微囊H^+—ATPase质子泵活性研究   总被引:4,自引:0,他引:4  
将悬浮培养的胡杨 (PopuluseuphraticaOliv .)细胞捣碎后 ,通过差速离心和不连续蔗糖密度梯度离心获得富集液泡膜的膜微囊。通过连续监测吖啶橙的荧光淬灭研究膜微囊上H _ATPase的质子转运特性。结果表明 ,质子转运依赖于ATP ,其表观米氏常数Km 值为 0 .6 5mmol/L。质子泵活性受pH和温度的影响较大。测定液pH值为7.5时 ,质子泵的活性最高 (测定温度选定为 2 2℃ )。一些二价阳离子可启动H _ATPase的质子转运 ,其中Mg2 的作用远高于Fe2 。在实验条件下 ,Ca2 、Cu2 和Zn2 均不能启动H _ATPase的质子转运。质子跨膜转运还可被一价阴离子激活 ,激活作用的顺序为 :Cl->Br->I->F-。质子泵活性受NEM(乙基马来酰亚胺 )、DCCD (二环己基碳二亚胺 )、NO-3 和BafilomycinA1的强烈抑制 ,但对Na3VO4 和NaN3 不敏感。这些性质说明胡杨液泡膜微囊上的H _ATPase属于囊泡型的ATPase。  相似文献   

3.
通过不连续蔗糖密度梯度离心得到的液泡膜微囊 ,先由胆酸钠和 OG分步破膜抽提、经阴离子交换柱 ( Q- Sepharose)层析分离 .纯化后的酶含 V型 H+ - ATPase的主要亚基 ,与大豆磷脂重组 ,获得了有较高泵活性的脂酶体 .脂酶体的质子泵活性受 Valinomycin激活 ,说明它是致电性的 ,受NO-3 ,DCCD以及特异性的 V型 ATPase抑制剂 Bafilomycin的抑制 .脂酶体的泵活性不受 F型和P型 ATPase抑制剂抑制 ,表明质子转运是由 V型 H+ - ATPase引起的 .  相似文献   

4.
小麦幼苗拒Na+部位的拒Na+机理   总被引:14,自引:2,他引:12  
采用日立Z 80 0 0原子吸收分光光度计测Na 、K 含量 ,采用不连续蔗糖梯度离心分离质膜和液泡膜微囊。递增盐度和盐冲击处理下 ,耐盐品种德抗 96 1的SK ,Na(吸收 ) 值和SK ,Na(运输 ) 值均明显大于盐敏感品种鲁麦 15 ;德抗 96 1根部和鲁麦 15根茎结合部Na 含量均呈递增趋势 ,表现出累积效应 ;德抗 96 1根细胞质膜微囊和液泡膜微囊H ATP酶活性均明显大于鲁麦15 ,鲁麦 15根茎结合部液泡膜微囊H ATP酶活性大于德抗 96 1,在同一品种的植株里 ,盐冲击的根和根茎结合部细胞质膜微囊和液泡膜微囊H ATP酶活性均小于递增盐度的酶活性。小麦拒Na 部位细胞质膜和液泡膜H ATP酶活性与其耐盐性强弱成正相关  相似文献   

5.
植物液泡膜Na /H 反向运输体可将细胞质中的Na 转运到液泡内储存,以减少胞内Na 的毒性.但木本植物如杨树是否有同样的机制目前还不清楚.以欧洲山杨的愈伤组织为材料,捣碎破碎愈伤组织细胞,经过差速离心和不连续蔗糖梯度离心得到纯化的欧洲山杨液泡微囊.通过液泡V-ATPase建立质子梯度,该液泡能够利用此梯度调控Na 的转运,表明液泡膜上存在Na /H 反向运输体活性(表观米氏常数Km是11.4mmol/L).Na /H 反向运输体的抑制剂——氨氯吡嗪咪能明显抑制转运体的活性.该Na /H 反向运输体也可以转运K ,但亲和能力比Na 低30%.该结果首次证明木本植物的液泡膜上存在Na /H 反向运输体.初步功能研究表明,愈伤组织在盐胁迫条件下,Na /H 反向运输体活性明显下降,提示该机制可能与山杨不耐盐有关.  相似文献   

6.
研究了铝和铝 钙对小麦幼苗根尖质膜、液泡膜微囊H ATP酶、Ca2 ATP酶、Mg2 ATP酶活性及其动力学参数和膜流动性的影响。在质膜和液泡膜微囊制剂中加入 1.0mmol/L的Al3 (AlCl3)时 ,H ATP酶、Ca2 ATP酶、Mg2 ATP酶活性和酶促反应的Vmax及膜流动性下降 ,而酶促反应的最适pH和Km 均不受影响。提高酶促反应介质的Ca2 (CaCl2 )浓度可以缓解Al3 对膜ATP酶活性和膜流动性的影响。推测Al3 可能通过与膜的结合而抑制膜ATP酶的活性  相似文献   

7.
采用液氮研磨与超声波破碎相结合的方法,破碎不同失水状态的发菜藻体和细胞,用差速离心法制备发菜类囊体膜粗制品,蔗糖密度梯度高速离心纯化类囊体膜,SDS-PAGE电泳分离类囊体膜蛋白,并对膜蛋白进行了MALDI-TOF-TOF/MS质谱分析和鉴定。结果表明:(1)充分吸胀4h后失水6h的发菜(含水量51.2%)和失水24h的发菜(含水量14.9%),经过多步差速离心后再进行蔗糖密度梯度高速离心,可得到纯化的类囊体膜。(2)发菜类囊体膜蛋白SDS-PAGE电泳分离到14个条带,共鉴定出8种蛋白,根据其功能可分为4类——光合作用相关蛋白(光系统Ⅱ锰稳定蛋白PsbO,F1F0 ATP合成酶α亚基和β亚基)、结构域蛋白、选择性通道蛋白OprB、未知蛋白(hypothetical protein Npun_R1321、Npun_R3785、N9414_02186),它们在发菜的光合作用中具有重要作用。  相似文献   

8.
以耐冷性不同的两个水稻品种为材料,比较研究了幼苗根系质膜、液泡膜ATP酶对低温(8℃)及高pH(8.0)胁迫的反应。结果表明水稻根细胞质膜和液泡膜上均存在Ca3+-ATP酶,但活性远低于H+-ATP酶。耐冷品种武育粳3号经低温(8℃)处理2d,根系质膜和液泡膜H+-ATP酶、Ca2+-ATP酶活性均明显升高,至冷处理12d,H+-ATP酶、Ca2+-ATP酶活性有所下降,但仍与对照相近;而冷敏感品种汕优63经低温(8℃)处理2d,根系质膜H+-ATP酶活性略有升高,而质膜Ca2+-ATP酶以及液泡膜H+-ATP酶、Ca2+-ATP酶活性已明显下降;至冷处理12d,4种酶活性均明显低于对照。高pH胁迫使质膜和液泡膜H+-ATP酶活性下降,而使Ca2+-ATP酶活性上升。高pH胁迫会加剧低温冷害。结果表明,耐冷品种质膜、液泡膜ATP酶比冷敏感品种对低温胁迫有更强的适应能力。  相似文献   

9.
胡杨愈伤组织质膜的两相分离法及其H+-ATPase的特性   总被引:1,自引:0,他引:1  
以胡杨愈伤组织为材料,用PEG 3350/DextranT 500构成的两相系统提取质膜微囊,研究质膜H+-ATPase的特性.结果显示由6.3% PEG 3350、6.3% Dextran T500、KCl、磷酸缓冲液(pH 7.8)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Triton X-100和0.01%~0.1%的Brij 58适用于测定质膜H+-ATPase活性.Lineweaver-Burk动力学分析该酶的Km值为0.65 mmol*L-1,Vmax为37.59 μmol Pi*mg-1 protein*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.  相似文献   

10.
胡杨愈伤组织质膜的两相分离法及其H~+-ATPase的特性   总被引:2,自引:2,他引:0  
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。  相似文献   

11.
A sucrose gradient fraction was used to characterize the tonoplast ATPase from storage tissue of the sugarcane plant ( Saccharum sp. var. H57–5175). Marker enzyme analyses and characterization of low-density vesicles isolated on a sucrose gradient were consistent with a highly enriched tonoplast fraction. ATPase and proton transport activities were both substantially inhibited by nitrate (80%), but very little by vanadate (10%), indicating a high titer of tonoplast compared to plasma-membrane vesicles in the fraction. Sensitivity toward other inhibitors, as well as ion effects, correlated closely among ATPase and proton translocation activities. Although the vesicles in this fraction showed good proton translocating activity there was no indication that ATP stimulated sucrose uptake in this tonoplast population.  相似文献   

12.
Isolation of tonoplast vesicles from tobacco protoplasts   总被引:6,自引:6,他引:0       下载免费PDF全文
Vacuoles were isolated from protoplasts of Nicotiana glutinosa by the method of Mettler and Leonard (Plant Physiol 1979 64: 1114-1120) with minor modifications so that the number of intact protoplasts contaminating the vacuole preparation was reduced to less than 1% (by number). Isopycnic centrifugation of a [3H]choline-labeled, sonicated vacuole preparation on linear 5 to 40% sucrose gradients indicated that tonoplast vesicles equilibrated at a density of about 1.12 grams per cubic centimeter. When tonoplast vesicles were isolated on discontinuous sucrose density gradients substrate specific ATPase activity was not found to be associated with this membrane fraction. These results are discussed in terms of the energetics of ion transport through the tonoplast membrane.  相似文献   

13.
Ni M  Beevers L 《Plant physiology》1991,97(1):264-272
Tonoplast vesicles were isolated by discontinuous sucrose gradient centrifugation in the presence of Mg2+ from 5 day old corn (Zea mays L., Golden Cross Bantam) seedling roots. Marker enzyme assays indicated only a low degree of cross-contamination of tonoplast vesicles at the 10/23% (weight/weight) interface by other membrane components. Severalfold enrichment of tonoplast ATPase and pyrophosphatase was indicated in tonoplast fractions by dot blot studies with antibodies against an oat tonoplast ATPase and a mung bean tonoplast pyrophosphatase. Comparison of two-dimensional electrophoretic gels of tonoplast and microsomal membrane polypeptides revealed approximately 68 polypeptides to be specific to tonoplast by silver staining. Immunoblot analysis with antibodies against a tonoplast holoenzyme ATPase from oat roots revealed the presence of the 72, 60, and 41 kilodalton polypeptides in isolated tonoplast vesicles from corn roots. Affinity blotting with concanavalin A and secondary antibodies indicated the degree of glycosylation of tonoplast polypeptides, where 21 of 68 tonoplast-specific polypeptides contained detectable carbohydrate moieties. Salt and NaOH washes removed 38 of the tonoplast-specific polypeptides, indicating a peripheral association with the membrane. Thirteen of the peripheral polypeptides and eight of the integral polypeptides were identified as glycoproteins. This information on the polypeptide composition of the tonoplast of root cells will aid in gaining insight into the role of this membrane in controlling vacuolar functions.  相似文献   

14.
 Vacuolar ATPase (EC 3.6.1.3) and PPase (EC 3.6.1.1) were studied in suspension cells and seedlings from spruce [Picea abies (L.) Karst. Proton transport activity and uncoupler (1 μM nigericin) stimulated substrate hydrolysis were measured in tonoplast enriched membrane vesicles. In suspension cells the vacuolar PPase exhibited 1.8-fold activity of the ATPase. In roots and needles from 12-week-old spruce seedlings the vacuolar PPase was inactive, whereas the ATPase was active. Therefore, we investigated whether the preparation of spruce tonoplast vesicles from roots and needles inactivates the vacuolar PPase but not the ATPase. For this purpose, maize (Zea mays L.) tonoplast membranes exhibiting vacuolar PPase as well as ATPase activity were used as a probe and added to the homogenization medium prior to the preparation of spruce vesicles. The preparation of spruce vesicles was more inhibitory to the vacuolar ATPase than to the PPase. The comparison of vacuolar PPases from spruce suspension cells and maize roots revealed similar enzymatic properties. After isopycnic centrifugation on continuous sucrose gradients the vacuolar PPase from spruce suspension cells co-purified with the vacuolar ATPase. Together, these data show: (1) vacuolar PPases from spruce suspension cells and maize roots are similar, (2) the preparation of tonoplast vesicles from spruce roots and needles does not inactivate the vacuolar PPase, (3) tonoplasts of suspension cultured cells and seedlings from spruce are differentially energized by the vacuolar pyrophosphatase that may indicate a difference in pyrophosphate metabolism between embryogenic and differentiated spruce cells, and (4) tonoplast vesicles from spruce seedlings may allow investigations of the effect of pyrophosphate on the vacuolar ATPase in the absence of vacuolar PPase activity. Received: 2 July 1998 / Accepted: 14 September 1998  相似文献   

15.
Greutert H  Keller F 《Plant physiology》1993,101(4):1317-1322
Vacuoles of Japanese artichoke (Stachys sieboldii) tubers accumulate up to 180 mM stachyose ([alpha]-galactose-[1->6]-[alpha]-galactose-[1->6]-[alpha]-glucose-[1 <->2]-[beta]-fructose) against a concentration gradient, probably by means of an active stachyose/H+ antiporter situated on the tonoplast. The goal of this study was to use isolated tonoplast vesicles to provide further evidence for the existence of such a transport mechanism. Therefore, vesicles were prepared from purified vacuoles of dormant tubers. ATP- and pyrophosphate (PPi)-dependent fluorescence quenching of the [delta]pH probe 9-amino-6-chloro-2-methoxyacridine (ACMA) indicated that these vesicles were capable of building up a pH gradient ([delta]pH, inside acid). The potent V-type H+-ATPase inhibitor bafilomycin prevented the formation of a [delta]pH in the vesicles. Bafilomycin (as well as nitrate, but not vanadate) also inhibited ATP hydrolysis, confirming the tonoplast origin of the isolated vesicles. Addition of stachyose (or sucrose, but not of mannitol) to energized vesicles caused a recovery of ACMA fluorescence, indicating a sugar-dependent dissipation of [delta]pH. The rate of fluorescence recovery was dependent on the external sugar concentration used. It displayed a single saturable response to increasing sugar concentrations. Apparent Km values of 52 and 25 mM were computed for stachyose and sucrose antiporter activities, respectively. It was also demonstrated that energized vesicles showed a much higher rate of [14C]stachyose (3 mM) and [14C]sucrose (1 mM) uptake than deenergized vesicles. The results obtained with isolated tonoplast vesicles were very similar to those obtained earlier with intact vacuoles and, therefore, confirm the existence of active stachyose and sucrose/H+ antiporters on the tonoplast of Stachys tuber vacuoles.  相似文献   

16.
Tonoplast vesicles were isolated from tomato (Lycopersicon esculentum Mill.) fruit pericarp and purified on a discontinuous sucrose gradient. ATPase activity was inhibited by nitrate and bafilomycin A1 but was insensitive to vanadate and azide. PPase hydrolytic activity was inhibited by NaF but was insensitive to nitrate, bafilomycin A1 vanadate and azide. Kimetic studies of PPase activity gave an apparent Km, for PP3 of 18 μM. Identical distributions of bafilomycin- and NO3-sensitive ATPase activities within continuous sucrose density gradients, confirmed that bafilomycin-sensitive ATPase activity is a suitable marker for the tonoplast. By comparing the distribution of bafilomycin-sensitive ATPase activity with that of PPase activity, it was possible to locate the PPase enzyme exclusively at the tonoplast. The apparent density of the tonoplast did not change during fruit development. Measurements of tonoplast PPase and ATPase activities during fruit development over a 35-day period revealed an 80% reduction in PPase specific activity and a small decrease in ATPase specific activity. ATP- and PP1-dependent ΔpH generation was measured by the quenching of quinacrine fluorescence in tonoplast vesicles prepared on a discontinuous Dextran gradient. No H+ efflux was detected on the addition of sucrose to energized vesicles. Therefore a H+/sucrose antiport may not be the mechanism of sucrose uptake at the tomato fruit tonoplast. Similar results were obtained with glucose, fructose and sorbitol. The lack of ATP (or PP1) stimulation of [14C]-sucrose uptake also suggested that an antiport was not involved. Initial uptake rates of radiolabelled glucose and fructose were almost double that for sucrose. The inhibition of hexose uptake by p-chloromercuribenzene sulphonate (PCMBS) implicated the involvement of a carrier. Therefore storage of hexose in the tomato fruit vacuole and maintenance of a downhill sucrose concentration gradient into sink cells is likely to be regulated by the activity of sucrose metabolizing enzymes, rather than by energy-requiring uptake mechanisms at the tonoplast.  相似文献   

17.
The effect of Cl- and other anions on the tonoplast H+-translocating ATPase (H+-ATPase) from Hevea brasiliensis (rubber tree) latex was investigated. Cl- and other anions stimulated the ATPase activity of tightly sealed vesicles prepared from Hevea tonoplast, with the following decreasing order of effectiveness: Cl- greater than Br- greater than SO4(2-) greater than NO3-. As indicated by the changes of the protonmotive potential difference, anion stimulation of tonoplast H+-ATPase was caused in part by the ability of these anions to dissipate the electrical potential. This interpretation assumes not a channelling of these anions against a membrane potential, negative-inside, but a modification of the permeability of these ions through the tonoplast membrane. In addition, Cl- and the other anions stimulated the ATPase activity solubilized from the tonoplast membrane. Consequently, the tonoplast H+-pumping ATPase can be considered as an anion-stimulated enzyme. These results are discussed in relation to various models described in the literature for the microsomal H+-ATPase systems claimed as tonoplast entities.  相似文献   

18.
Effects of pH on proton transport by vacuolar pumps from maize roots   总被引:1,自引:0,他引:1  
Protons pumps of the tonoplast may be involved in the regulation of cytosolic pH, but the effects of pH on the coupled activities of these transporters are poorly understood. The effects of pH on the activities of the H+-translocating pyrophosphatase (PPiase) and vacuolar-type H+-translocating adenosine triphosphatase (H+-ATPase) from maize ( Zea mays L. cv. FRB 73) root membranes were assessed by model that simultaneously considers proton transport by the pump and those processes that reduce net transport. The addition of either pyrophosphate or ATP to either microsomal or tonoplast membranes generated a pH gradient. The pH gradient generated in the presence of both substrates was not the sum of the gradients produced by the two substrates added separately. When membranes were separated by sucrose density gradient centrifugation, pyrophosphate (PPi)-dependent proton transport was associated with light density membranes having tonoplast H+-ATPase activity. These results indicate that some portion of the PPiase was located on the same membrane system as the tonoplast ATPase; however, tonoplast vesicles may be heterogeneous, differing slightly in the ratio of ATP- to PPi-dependent transport. Proton transport by both the PPiase and ATPase had maximal activity at pH 7.0 to 8.0 Decreases in proton transport by the ATPase at pH above the optimum were associated with increases in the processes that reduce net transport. Such an association was not observed at pH values below the optimum. These results are discussed in terms of in situ regulation of cytoplasmic pH by the two pumps.  相似文献   

19.
Modification of our previous procedure for the isolation of microsomal membrane vesicles from red beet (Beta vulgaris L.) storage tissue allowed the recovery of sealed membrane vesicles displaying proton transport activity sensitive to both nitrate and orthovanadate. In the absence of a high salt concentration in the homogenization medium, contributions of nitrate-sensitive (tonoplast) and vanadate-sensitive (plasma membrane) proton transport were roughly equal. The addition of 0.25 M KCl to the homogenization medium increased the relative amount of nitrate-inhibited proton transport activity while the addition of 0.25 M KI resulted in proton pumping vesicles displaying inhibition by vanadate but stimulation by nitrate. These effects appeared to result from selective sealing of either plasma membrane or tonoplast membrane vesicles during homogenization in the presence of the two salts. Following centrifugation on linear sucrose gradients it was shown that the nitrate-sensitive, proton-transporting vesicles banded at low density and comigrated with nitrate-sensitive ATPase activity while the vanadate-sensitive, proton-transporting vesicles banded at a much higher density and comigrated with vanadate-sensitive ATPase. The properties of the vanadate-sensitive proton pumping vesicles were further characterized in microsomal membrane fractions produced by homogenization in the presence of 0.25 M KI and centrifugation on discontinuous sucrose density gradients. Proton transport was substrate specific for ATP, displayed a sharp pH optimum at 6.5, and was insensitive to azide but inhibited by N'-N-dicyclohexylcarbodiimide, diethylstilbestrol, and fluoride. The Km of proton transport for Mg:ATP was 0.67 mM and the K0.5 for vanadate inhibition was at about 50 microM. These properties are identical to those displayed by the plasma membrane ATPase and confirm a plasma membrane origin for the vesicles.  相似文献   

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