脱硫废弃物对碱胁迫下水稻叶片钙分布、Ca2+-ATPase活性及抗氧化特征的影响

为了探讨脱硫废弃物提高水稻抗盐碱的作用机制,采用盆栽法,研究脱硫废弃物对碱胁迫下水稻幼苗叶片总钙含量、Ca2+分布、细胞膜Ca2+-ATPase活性及活性氧含量等的变化.结果表明： 对照处理的细胞中钙颗粒零星分布于细胞壁和叶绿体中,添加脱硫废弃物和CaSO4处理的细胞质膜、细胞间隙、细胞壁和液泡中有大量的钙颗粒分布;随着脱硫废弃物和CaSO4添加量的增加,叶片总钙含量增加,质膜和液泡膜Ca2+-ATPase活性呈上升趋势,质膜透性、MDA含量和活性氧O2〖SX(B-*3〗-〖〗·〖SX)〗产生速率呈下降趋势,SOD、POD等保护酶活性升高.添加脱硫废弃物在一定程度上能够减缓碱胁迫对水稻造成的细胞伤害,起主要作用的物质可能是其主要成分CaSO4.     

豚鼠精子质膜Ca2+ -ATPase活性与精子顶体反应关系的研究

用生化测定法首次证实豚鼠精子质膜Ca²⁺-ATPase活性在精子获能和顶体反应过程中显著下降.Ca²⁺-ATPase抑制剂利尿酸(ethacrynic acid)抑制质膜Ca²⁺-ATPase活性,但钙调素(50μg/mL)的拮抗剂三氟拉嗪(TFP,200～500μmol/L)对该酶活性没有影响,说明钙调素不直接参与精子依赖于ATP的Ca²⁺的主动泵出.但钙调素与精子的Ca²⁺内流有关,钙调素拮抗剂TFP显著促进精子顶体反应和精子对Ca²⁺的摄入.Ca²⁺-ATPase抑制剂栎皮酮(quercetin)、原钒酸钠(sodiumorthovandate)、利尿磺胺(furosemide)和利尿酸均显著促进豚鼠精子的顶体反应,但却抑制精子对Ca²⁺的摄入,这无法用它们对质膜Ca²⁺-ATPase活性的抑制作用解释.推测这可能是由于Ca²⁺-ATPase抑制剂在抑制质膜Ca²⁺-ATPase活性的同时也抑制了顶体外膜或线粒体外膜上的该酶的活性,导致Ca²⁺在细胞质内的积累,进而通过负反馈机制抑制Ca²⁺进一步内流所致.另外,Ca²⁺-ATPase抑制剂对糖酵解的抑制作用也可能是Ca²⁺在细胞质中积累和抑制精子Ca²⁺摄入的原因.     

猪脑突触体质膜(Ca2+-Mg2+)-ATPase的分离纯化与性质

以猪脑为材料,经匀浆、差速离心、蔗糖密度梯度离心分离突触体. 低渗破膜得到突触体膜. Triton X-100增溶后,经钙调蛋白亲和层析可得去脂的质膜Ca²⁺-ATPase. 用大体积亲和柱和大体积低Ca²⁺淋洗液淋洗,可得产率、纯度和活性均较高的质膜Ca²⁺-ATPase. 与大豆磷脂保温后,去脂的Ca²⁺-ATPase的水解活力可恢复达3.32 μmol/(mg·min).SDS-聚丙烯酰胺凝胶电泳银染显示单一蛋白质带,分子质量约为140 ku,纯度在90%以上. 不同Ca²⁺浓度明显影响酶的活力.     

川楝素对K+、Ca2+通道活动及细胞内Ca2+浓度的调控

川楝素是我国学者从驱蛔中药中分离、鉴定的一个三萜化合物，已证明具选择地影响神经递质释放，有效地对抗肉毒中毒，促进细胞分化、凋亡，抑制肿瘤增殖，抑制昆虫发育和取食，影响K⁺、Ca²⁺通道活动等多种生物效应. 综述了证明川楝素抑制多种K⁺通道，选择地易化L型Ca²⁺通道和进而升高胞内Ca⁺浓度的研究资料，并对川楝素产生这些生物效应的机制进行了讨论.     

介质Ca2+和La3+对酿酒酵母生长的影响

采用正交实验研究了外加Ｃａ^２＋和Ｌａ^３＋对酿酒酵母生长的影响。结果表明：外加Ｃａ^２＋和Ｌａ^３＋对酿酒酵母的生长均有显著的影响,都呈现出低浓度时正效应和高浓度时负效应,当Ｃａ^２＋浓度为１ｍｍｏｌ／Ｌ及Ｌａ^３＋浓度为１５μｍｏｌ／Ｌ时酿酒酵母生长最好。     

Ca2+和Sr2+诱导大肠埃希菌感受态细胞的形成及转化的影响

为研究金属离子诱导下感受态细胞形成的机理及揭示转化发生的机制,分别用Ca~(2+)和Sr~(2+)(0~140mmol/L)制备大肠埃希菌感受态细胞并转化。研究结果表明,不同浓度的Ca~(2+)和Sr~(2+)诱导的感受态细胞的效价不同,两种金属离子对大肠埃希菌细胞内外膜的通透性均有较大影响,但细胞内外膜的改变程度与转化率无直接关系;电镜结果显示,未处理的细胞呈簇聚集发生粘连现象,感受态细胞整体呈分散状态,局部发生聚集,而转化后的细胞独立存在,边缘异常清晰。     

亚硒酸钠对巨噬细胞内游离Ca2+和Mg2+的影响

用单细胞阳离子测定系统研究了SeO^2-₃对巨噬细胞内游离Ca²⁺和Mg²⁺的影响.实验结果表明:SeO^2-₃高于10^-4mol/L时,有显著的细胞毒性.SeO^2-₃对细胞的毒性作用使细胞内游离Ca²⁺和Mg²⁺的浓度升高但Ca²⁺浓度的升高速率比Mg²⁺快.还有,高于10^-4mol/L的SeO^2-₃对红细胞膜上的Ca²⁺-ATP酶活性有明显抑制作用.     

高温胁迫对花生幼苗光合速率、叶绿素含量、叶绿体Ca2+-ATPase、Mg2+-ATPase及Ca2+分布的影响

将水培后盆栽的花生幼苗,置于培养箱42℃高温培养,定时测定幼苗叶光合速率、叶绿素含量和叶绿体Ca²⁺-ATPase、Mg²⁺-ATPase的相对活性,并观察幼叶细胞内Ca²⁺分布的变化。试验结果表明：高温胁迫过程中,光合速率及叶绿素含量都随处理时间的延伸而下降,并呈显著正相关;叶绿体Ca²⁺-ATPase和Mg²⁺-ATPase高温胁迫过程中相对活性呈先升后降趋势,Ca²⁺-ATPase热敏性高于Mg²⁺-ATPase;高温胁迫过程中,Ca²⁺具有从胞外转运到胞质内和叶绿体中的趋势,Ca²⁺能够稳定高温胁迫下叶肉细胞膜和叶绿体的超微结构。     

镉胁迫下小麦根尖分生细胞中Ca2+分布的变化

运用透射电镜细胞化学方法对镉胁迫下小麦极尖分生细胞中Ca^2 分布的变化进行了观察。在正常生长条件下,Ca^2 广泛分布于细胞质,细胞核,细胞间隙中,特别是液泡中有大量的Ca^2 ;在镉胁迫条件下,细胞质基质内Ca^2 减少,而细胞核,质膜与细胞壁之间,细胞壁中Ca^2 明显增多,细胞液泡化,液泡中仍有较多Ca^2 。结果表明,Cd^2 引起细胞中原有Ca^2 分布发生明显变化。这很可能引起细胞生理功能紊乱。进而影响植物的生长。     

脱硫废弃物对碱胁迫下水稻叶片钙分布、Ca2+-ATPase活性及抗氧化特征的影响

为了探讨脱硫废弃物提高水稻抗盐碱的作用机制,采用盆栽法,研究脱硫废弃物对碱胁迫下水稻幼苗叶片总钙含量、Ca2+分布、细胞膜Ca2+-ATPase活性及活性氧含量等的变化.结果表明:对照处理的细胞中钙颗粒零星分布于细胞壁和叶绿体中,添加脱硫废弃物和CaSO4处理的细胞质膜、细胞间隙、细胞壁和液泡中有大量的钙颗粒分布;随着脱硫废弃物和CaSO4添加量的增加,叶片总钙含量增加,质膜和液泡膜Ca2+-ATPase活性呈上升趋势,质膜透性、MDA含量和活性氧O2-产生速率呈下降趋势,SOD、POD等保护酶活性升高.添加脱硫废弃物在一定程度上能够减缓碱胁迫对水稻造成的细胞伤害,起主要作用的物质可能是其主要成分CaSO4.     

燃煤烟气脱硫废弃物对盐碱土的改良效应及对向日葵生长的影响

采用大田和盆栽相结合的试验方法, 研究了施用燃煤烟气脱硫废弃物(简称脱硫废弃物)后对盐碱土壤的改良状况及对油用向日葵(Helianthus annuus) (油葵)生长的影响。试验地设在宁夏平罗西大滩碱化土壤上, 设置5个不同脱硫废弃物施用量: 0、11.25 × 10³、22.50 × 10³、33.75 × 10³和45.00 × 10³ kg·hm^-2, 连续3年(2006-2008年)观测了土壤pH值、全盐含量及油葵根系的长度与体积、叶片细胞膜透性和抗氧化保护酶系统。试验数据显示, 施入脱硫废弃物后, 土壤pH值、全盐含量、油葵叶片细胞膜透性、超氧化物歧化酶(SOD)活性均呈逐年下降趋势, 油葵根系的长度和体积呈逐年上升趋势, 且各处理间均差异显著(p < 0.05)。研究结果表明, 脱硫废弃物的施用能显著改良盐碱土壤, 促进油葵的生长, 综合考虑经济因素, 11.25 × 10³ kg·hm^-2的施用量效果最佳。     

钙与脱落酸对干旱胁迫下黄瓜幼苗光合及相关酶活性的影响

为探讨在干旱胁迫下钙与脱落酸对黄瓜幼苗光合作用及相关酶活性的影响,以黄瓜为试材,正常营养液栽培为对照,利用PEG-6000(聚乙二醇)营养液添加模拟干旱胁迫,设干旱胁迫条件下幼苗叶片喷施清水、脱落酸(ABA)、CaCl₂+ABA、LaCl₃(钙离子通道抑制剂)+ABA及EGTA(钙离子螯合剂)+ABA等5个处理.结果表明: 干旱胁迫抑制了黄瓜幼苗的营养生长、降低了幼苗叶片的抗氧化酶和硝酸还原酶活性,以及光合作用和荧光参数等,通过叶面喷施ABA减小了幼苗叶片中超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)和抗坏血酸过氧化物酶(APX)活性,以及光合作用(P_n、g_s)和荧光参数(F_v′/F_m′、q_P和ETR)的下降幅度,有效缓解了干旱胁迫对植株造成的伤害;喷施CaCl₂+ABA显著促进了ABA的这种正向缓解作用,而喷施LaCl₃+ABA和EGTA+ABA都没有表现出促进作用.     

外源钙对根际低氧胁迫下黄瓜幼苗ADH、LDH活性和同工酶的影响

以‘新泰密刺’黄瓜为材料,采用营养液栽培,外源使用Ca2+、钙离子通道抑制剂La3+与钙调素拮抗剂三氟拉嗪(TFP),研究了钙对根际低氧胁迫下黄瓜幼苗根系ADH、LDH活性和同工酶的影响。结果表明,低氧胁迫诱导产生了新的ADH和LDH同工酶条带。低氧胁迫下,ADH、LDH同工酶丰度和活性显著高于对照;外源增施Ca2+有利于Ca2+信号的形成和逆境信号的传递,营养液添加CaCl2缓解了低氧胁迫对黄瓜植株的伤害,ADH、LDH同工酶丰度和活性接近对照水平;La3+抑制Ca2+的吸收和体内运输,营养液添加LaCl3显著抑制了ADH和LDH同工酶丰度和酶活性,黄瓜幼苗植株生长受到抑制,生物量显著低于低氧处理,表明La3+加重了低氧胁迫对黄瓜幼苗植株的伤害;TFP抑制了低氧逆境胁迫信号的传递,营养液添加TFP抑制了ADH和LDH同工酶丰度和酶活性,ADH和LDH同工酶丰度和酶活性显著低于低氧处理,黄瓜幼苗植株生长受到抑制,黄瓜植株的低氧耐性降低。暗示外源Ca2+参与了低氧胁迫下黄瓜根系无氧呼吸代谢的调节,增强了Ca2+向植物体内的运输,缓解了低氧胁迫对黄瓜幼苗植株的伤害,增强了植物对低氧的耐性。     

磷对海水胁迫下芦荟幼苗离子分布的影响

研究了磷对海水胁迫下库拉索芦荟(A loe vera)幼苗干物质积累、植株含水量、在器官和组织水平上离子分布的影响。增磷显著缓解海水胁迫对芦荟生长的抑制,明显提高海水胁迫下芦荟幼苗的干物质积累和含水量。器官离子含量和X射线微区分析结果都表明,30%浓度海水胁迫下,外源磷水平的提高能显著降低芦荟幼苗根系N a 、C l-的吸收,增强K 、C a2 向地上部的运输和分配,从而维持叶片较高的K /N a 、C a2 /N a 比率,而这很可能是增磷提高芦荟对海水胁迫抗性的主要原因之一。     

Stimulation of ATPase activity in barley (Hordeum vulgare) root plasma membrane after treatment of intact tissues and cell free extracts with triacontanol

Ca²⁺- and Mg²⁺-dependent ATPase activity (EC 3.6.1.3) in a plasma membrane-enriched fraction increased rapidly after in vivo application of physiologically active concentrations of triacontanol (TRIA) to the roots of barley ( Hordeum vulgare L. cv. Conquest) seedlings. Ca²⁺- and Mg²⁺-dependent ATPase activity was 64 and 85% higher, respectively, in the roots of seedlings germinated in the presence of growth-promoting concentrations of TRIA compared to controls. The increase in vivo was concentration dependent, with the greatest increase obtained at 2.3 n M TRIA. Maximal stimulation of ATPase activity of excised tissue treated with TRIA coincided with the temperature at which the barley was grown. At this temperature the plasma membrane is primarily in a mixed gel/liquid crystalline state. Pretreatment of barley roots with cyclohexamide did not alter ATPase stimulation by TRIA. Two to three times more [¹⁴C]-TRIA (mg membrane protein)⁻¹ was found associated with plasma membrane-enriched vesicles treated with TRIA than with vesicles enriched for mitochondrial membranes or for vesicles enriched for tonoplast, Golgi and rough endoplasmic reticulum. Both Ca²⁺- and Mg²⁺-dependent ATPase activity increased by 40–60% within 30 min of the addition of 2.3 n M TRIA to cell-free extracts of barley roots. The addition of octacosanol, the C₂₈ analogue of TRIA, to cell-free extracts did not affect metal-dependent ATPase activity. Consistent with many studies in the green-house, simultaneous additions of equimolar amounts of TRIA and octacosanol to cell-free extracts resulted in inhibition of ATPase stimulation by TRIA. TRIA may directly affect plasma membrane function in barley roots.     

海洋酸化与磷浓度变化对龙须菜光合作用和ATPase活性的影响

以大型海藻龙须菜(Gracilaria lemanensis)为实验材料,设置不同CO2浓度(400μL·L–1和1000μL·L–1)和磷浓度(0.5和30μmol·L-1)实验,探讨大气CO2浓度升高对不同磷浓度培养下龙须菜生长、光合作用及ATPase活性的影响.结果显示大气CO2下,磷加富导致龙须菜的相对生长速率...     

The mechanism of coupling chemical and physical reactions by the calcium ATPase of sarcoplasmic reticulum and other coupled vectorial systems

The coupling of the chemical reaction of ATP hydrolysis to the transport of calcium from the cytoplasm into the lumen of sarcoplasmic reticulum vesicles can be defined by a set of rules that define alternating changes in the specificities of the enzyme for catalysis of chemical and physical reactions.     

Molecular determinants of sarco/endoplasmic reticulum calcium ATPase inhibition by hydroquinone-based compounds

The ion transport activity of the sarco/endoplasmic reticulum calcium ATPase (SERCA) is specifically and potently inhibited by the small molecule 2,5-di-tert-butylhydroquinone (BHQ). In this study, we investigated the relative importance of the nature and position of BHQ's four substituents for enzyme inhibition by employing a combination of experimental and computational techniques. The inhibitory potencies of 21 commercially available or synthesized BHQ derivatives were determined in ATPase activity assays, and 11 compounds were found to be active. Maximum inhibitory potency was observed in compounds with two para hydroxyl groups, whereas BHQ analogues with only one hydroxyl group were still active, albeit with a reduced potency. The results also demonstrated that two alkyl groups were an absolute requirement for activity, with the most potent compounds having 2,5-substituents with four or five carbon atoms at each position. Using the program GOLD in conjunction with the ChemScore scoring function, the structures of the BHQ analogues were docked into the crystal structure of SERCA mimicking the enzyme's E(2) conformation. Analysis of the docking results indicated that inhibitor binding to SERCA was primarily mediated by a hydrogen bond between a hydroxyl group and Asp-59 and by hydrophobic interactions involving the bulky inhibitor alkyl groups. Attempts to dock BHQ into crystal structures corresponding to the E(1) conformation of the enzyme failed, because the conformational changes accompanying the E(2)/E(1) transition severely restricted the size of the binding site, suggesting that BHQ stabilizes the enzyme in its E(2) form. The potential role of Glu309 in enzyme inhibition is discussed in the context of the computational results. The docking scores correlated reasonably well with the measured inhibitory potencies and allowed the distinction between active and inactive compounds, which is a key requirement for future virtual screening of large compound databases for novel SERCA inhibitors.     

Inhibition of calcium ATPase by phencyclidine in rat brain

Phencyclidine (PCP) is a potent psychotomimetic drug of abuse and has profound effect on the functioning of the central nervous system (CNS). Many of the CNS functions are known to be mediated by calcium (Ca2+). In the present study we have investigated the effects of PCP on Ca2+ ATPase activity in rat brain both in vitro and in vivo. For in vitro studies, synaptic membrane fractions prepared from normal rat brain were incubated with PCP at different concentrations (25-100 M) before the addition of substrate. For n vivo studies, rats were treated with a single moderate dose of PCP (10 mg/kg, IP) and animals were sacrificed at 1,2, 6 and 12 h after treatment. Ca2+ ATPase activity in synaptic membrane fractions was assayed by estimation of inorganic phosphate. PCP inhibited the Ca2+ ATPase in vitro in a concentration dependent manner with significant effect at 50 and 100 M. A significant time-dependent reduction of the Ca2+ ATPase activity was evident in vivo. As early as 2 h after the treatment of rats with PCP the ATPase activity was significantly reduced. The reduction of Ca2+ ATPase observed even at 12 h after treatment suggesting a prolonged presence of the drug in the brain tissue. Further, kinetic studies in vitro indicated PCP to be a competitive inhibitor of Ca2+ ATPase with respect to the substrate, ATP. The present findings indicate that PCP inhibits synaptic membrane Ca2+ ATPase thus altering cellular Ca2+ homeostasis in CNS which may partially explain the pharmacological effects of the drug and/or its neurotoxicity.