质体醌在两个光系统激发能分配中的功能

用非极性有机溶剂正己烷抽提菠菜类囊体膜,Mg~(2 )调节激发能在两个光系统间的分配效率降低:向抽提过的类囊体膜加入人工合成的PQ类似物PQ_2,有部分恢复Mg~(2 )对能量分配的调节作用,但对类囊体膜表面静电性质不产生影响.向非抽提的类囊体膜加入二溴百里香醌(DBMIB),一种抑制PQ氧化的抑制剂,同样发现DBMIB抑制Mg~(2 )调节激发能分配的效率,但对类囊体膜表面静电性质也不发生影响.以上实验结果表明,PQ对Mg~(2 )诱导激发能在两个光系统间的分配具有调节作用.这种调节作用不依赖于类囊体膜的表面电荷变化,而与PQ的氧化还原状态密切相关.     

在两个品种大豆叶绿体膜中,Mg~(2+)诱导荧光改变与类囊体膜表面电荷的关系

用“冀北1号”和“丰收黄”两个品种大豆的叶绿体膜,测定了不同 Mg~(2+)浓度对它们的光诱导 chla 可变荧光及电泳速度的影响。虽然将这两种叶绿体膜悬于相同的低盐介质中,其光诱导可变荧光产率彼此不同,但它们的可变荧光产率与电泳迁移率则是彼此相关的,在这两种大豆的叶绿体膜中,Mg~(2+)诱导荧光产率增加和电泳迁移率下降的浓度曲线均呈现出类似的动力学变化。Mg~(2+)诱导上述两种现象所需要的最适浓度亦大抵相同。这些实验结果说明:Mg~(2+)诱导激发能在两个光系统之间分配的改变与其诱导类囊体膜表面静电性质的变化是密切相关的。文中讨论了膜表面蛋白质的羧基在 Mg~(2+)诱导效应中的可能作用。     

关于阳离子诱导光合激发能分配改变的机理研究:23—25KD多肽在Mg~(2+)诱导Chla荧光及类囊体膜表面电荷变化中的作用

暗中培养的黄化大麦苗在25℃用连续光照射48小时,其转绿质体明显地呈现出Mg~(2+)诱导Chla低温荧光F_(685)/F_(736)比值增高和类囊体膜电泳迁移率下降,而且这两种效应具有良好的相关性.此外,利用在照光开始时,加入蛋白质合成抑制剂CAP处理所得到的转绿质体,进行了同样的实验观察,发现这种转绿质体无Mg~(2+)诱导Chla荧光及膜表面电荷改变的效应.用常规的SDS—PAGE进行类囊体膜的多肽分析表明,这种转绿质体亦缺少LHC—PSⅡ23—25KD多肽成分.这些实验结果证明,LHC—PSⅡ23—25KD多肽成分是阳离子结合的特异性部位.文中讨论了Mg~2+)对LHC—PSⅡ的静电中和作用所引起的膜空间或构型的改变,可能是阳离子诱导激发能在两个光系统之间分配变化的重要原因.     

Mg~(2 )诱导 Chla 荧光,膜垛迭和膜表面电荷变化之间的关系

利用低盐介质分离的冀北1号大豆叶绿体膜,同时测定不同浓度 Mg~(2 )对 Chla 可变荧光产率,类囊体膜再垛迭和膜电泳速率的影响。现察到 Mg~(2 )抑制膜电泳迁移率与其刺激 Chla可变荧光产率及膜再垛迭之间,存在有良好的相关性,证实金属阳离子对激发能在两个光系统之间传递与分配的调节作用,与金属阳离子中和或屏蔽类囊体膜表面的净负电荷,促使膜再垛迭密切相关。     

Clotrimazole对叶绿体ATPase功能的影响及其作用部位

clotrimazole能抑制 DTT+光激活的类囊体膜上Mg~(2+)—ATPase的活力。这种抑制属于可逆非竞争性抑制。进一步的实验还表明clotrimazole可以消除 9—AA光下荧光粹灭指示的正常类囊体及DCCD重组残缺膜的跨膜质子梯度。卵磷脂可以减缓 clotrimazole对9—AA荧光粹灭的抑制作用。clotrimazole还能抑制DTT加热激活的游离CF_1 Ca~(2+)—ATPase的活力。根据以上结果我们推测 clotrimazole在类囊体上可能有两个作用部位,一个在类囊体膜脂;另一个在CF_1。     

从二溴百里香醌的抑制效应分析融合膜电子传递的途径

甲基紫精(MV)系统中,在对类囊体膜的光合磷酸化(PSP)活力近于完全抑制的二溴百里香醌(DBMIB)浓度下,由类囊体残缺膜与线粒体嵴膜组成的融合膜PSP活力不仅不被抑制,反而受到不同程度的促进。在铁氰化钾(FeCy)系统中,DBMIB对类囊体膜的PSP活力不能完全抑制,同样浓度的DBMIB对融合膜的PSP活力有抑制效应。检测了不同膜在不同系统中,光下耗氧、放氧、FeCy还原和融合效应的关系等,论证了融合膜中电子传递的途径。     

镉离子对菠菜叶绿体色素蛋白质复合物及激发能分配的影响

Cd~(2+)使叶绿体低温(77K)荧光发射光谱中 F686/F736及 F696/F736和激发光谱中F480/F436比值降低,说明 Cd~(2+)不利于激发能向 PSⅡ传递。SDS-PAGE 分析表明,Cd(2+)处理后叶绿体类囊体膜中光系统Ⅱ捕光叶绿素蛋白质复合物 LHCⅡ的部分寡聚体解聚成单体,且 LHCⅡ的总量也减少了。分析表明 Cd~(2+)使属于 LHCⅡ的多肽减少。已知LHCⅡ在光能吸收、传递以及激发能在两个光系统间的分配和调节方面起着重要作用,Cd~(2+)引起部分 LHCⅡ解聚和总量减少,必然导致由 LHCⅡ捕获和向光系统Ⅱ中心传递的能量减少。     

质体醌库和细胞色素b6f参与调控蓝细菌 Synechocystis sp. PCC 6803的状态转换

用调制叶绿素荧光研究了对苯醌(1,4-benzoquinone,BQ)和二溴百里香醌(2,5-dibromo-3-methyl-6-isopropyl-1,4-benzoquinone,DBMIB)对蓝细菌Synechocystissp.PCC6803状态转换的作用。BQ和DBMIB是质体醌(PQ)的类似物,两者均可充当PQ的电子受体。其中,DBMIB能够和细胞色素b6f的Qo位点特异结合。在没有作用光的情况下,BQ诱导暗适应的蓝细菌进入状态Ⅰ;相反,DBMIB诱导Syne鄄chocystis6803向状态Ⅱ转换。据此提出,在生理状态下蓝细菌根据PQ库的氧化还原状态调节状态转换;细胞色素b6f参与此调控过程。     

多粘菌素B对类囊体膜上M_g~(2+)-ATPase功能的影响及其作用部位

多粘菌素B抑制类囊体膜上的Mg~(2+)-ATP酶活力,且其部分抑制作用受控于高能态。如将酶反应速度和[Mg~(2+)ATP]的浓度作双倒数图,则可观察到多粘菌素B和[Mg~(2+)ATP]浓度之间存在着类似竞争的关系。再经用多粘菌素B抑制游离的β亚单位的活力。证明多粘菌素B在偶联因子上的作用部位是在β亚单位上。     

稀土元素Pr~(3+)、Nd~(3+)对蚕豆(Vicia feba)叶片原生质膜上Ca~(2+)·Mg~(2+)-ATPase活性的影响

本文介绍用二相分配法制备蚕豆叶片原生质膜上的Ca~(2+)·Mg~(2+)-ATPase,用以研究镧系,稀土离子对此酶活性的影响。初步证实Pr~(3+)、Nd~(3+)对依赖于CaM的以及不依赖于CaM的蚕豆叶片原生质膜上Ca~(2+)·Mg~(2+)-ATPase活性的抑制不是CaM专一的。     

Mechanism of Change in the Cation-Induced Excitation Energy Distribution Between PSⅡ and PS Ⅰ in the Chloroplast Membrane from Zostera marina

The interrelations between thylakoid polypeptide components and Mg2+-induced Chl a fluorescence and thylakoid surface charge changes were investigated in Zostera marina chloroplasts treated with Ca2+ and trypsin. It was observed that: 1. The increase of Mg2+- induced PS Ⅱ fluorescence intensity was closely related to the decrease of Mg2+-induced surface charge density of the thylakoid membrane in the normal chloroplast; 2. Removal of the 32～34 kD polypeptides of the thylakoid surface by Ca2+ extraction of the chloroplast did not affect the Mg2+-induced phenomena; 3. If the Ca2+-treated chloroplast was further digested by trypsin to remove the 26 kD polypeptide of the membrane surface, the Mg2+-induced phenomena disappeared completely. These results clearly indicated that the 26 kD polypeptide of thylakoid surface is the specific acting site of the cation that induced these two correlated phenomena in the chloroplast from Zostera marina. The mechanism on the regulating effect of the cation on excitation energy distribution between PS Ⅱ and PS Ⅰ was discussed.     

盐酸胍处理大麦类囊体膜对金属阳离子调节激发能分配的影响

以大麦（ＨｏｒｄｅｕｍＶｕｌｇａｒｅＬ）叶片为实验材料,研究盐酸胍处理大麦类囊体膜对金属阳离子调节激发能分配的影响。结果表明：当未用盐酸胍处理时,Ｍｇ２＋对类囊体膜的Ｆ６８６／Ｆ７３６比值有显著的刺激作用,而用不同浓度盐酸胍处理类囊体膜,则明显阻滞Ｍｇ２＋调节激发能向ＰＳＩＩ分配,表明盐酸胍处理可能损伤类囊膜上ＬＨＣ—ＩＩ与Ｍｇ２＋调节作用有关的蛋白质,从而导致Ｍｇ２＋调节效应降低．用ＳＤＳ—ＰＡＧＥ方法研究盐酸胍处理后的类囊体膜色素蛋白复合物的组成变化,结果表明盐酸胍处理导致ＭＩＣ—ＩＩ中ＭＩＣＰ１和ＬＨＣＰ２组分消失,这说明盐酸胍处理阻滞Ｍｇ２＋调节效应可能与ＬＪＩＣ—ＩＩ上的ＬＨＣＰ１,ＬＨＣＰ２受损有关。     

Electron paramagnetic study of electron transport in photosynthetic systems. X. Effect of magnesium ions on the structural state of thylakoid membranes and the kinetics of electron transport between the two photosystems in bean chloroplasts

The effect of Mg2+-ions on the physical state of thylakoid membrane and kinetics of electron transport between two photosystems were studied. The rate of electron transport from photosystem 2 to P700+ and the activity of photosystem 2 were obtained from the kinetics of P700 redox transients induced by flashes of white light (t1/2 = 7 musec or 0.75 msec) fired simultaneously with the background continuous far-red light (707 nm). The spin-labeled stearic acids (I1.14 and I12.3) were used as indicators of Mg2+-induced structural changes. Addition of MgCl2 stimulates incorporation of spin-labels into the lipid region of the thylakoid membrane. It was found that Mg2+-ions modify the ESR spectrum of I12.3. The results evidence that the screening of charged groups on the thylakoid membrane surface induces structural changes in the lipid region of the membrane. We have concluded that these structural changes result in reorientation of lipid molecules in the thylakoid membrane. There is a correlation between Mg2+-induced structural changes and electron transport in chloroplasts. Addition of Mg2+-ions stimulates the photochemical activity of photosystem 2 by increasing the amount of active reaction centres and modifies the rate constant of electron transport from photosystem 2 to P700+. It has been demonstrated that ion regulation of electron transport in more effective in the oxidising side than in the reducing side of plastoquinone shuttle.     

Light-dependent changes of the Mg2+ concentration in the stroma in relation to the Mg2+ dependency of CO2 fixation in intact chloroplasts.

(1) Light-dependent changes of the Mg2+ content of thylakoid membranes were measured at pH 8.0 and compared with earlier measurements at pH 6.6. In a NaCl and KCl medium, the light-dependent decrease in the Mg2+ content of the thylakoid membranes at pH 8.0 is found to be 23 nmol Mg2+ per mg chlorophyll, whereas in a sorbitol medium it is 83 nmol Mg2+ per mg chlorophyll. (2) A light dependent increase in the Mg2+ content of the stroma was detected wjem chloroplasts were subjected to osmotic shock, amounting to 26 nmol/mg chlorophyll. Furthermore, a rapid and reversible light-dependent efflux of Mg2+ has been observed in intact chloroplasts when the divalent cation ionophore A 23 187 was added, indicating a light-dependent transfer of about 60 nmol of Mg2+ per mg chlorophyll from the thylakoid membranes to the stroma. (3) CO2 fixation, but not phosphoglycerate reduction, could be completely inhibited when A 23 187 was added to intact chloroplasts in the absence of external Mg2+. If Mg2+ was then added to the medium, CO2 fixation was restored. Half of the maximal restoration was achieved with about 0.2 mM Mg2+, which is calculated to reflect a Mg2+ concentration in the stroma of 1.2 mM. The further addition of Ca2+ strongly inhibits CO2 fixation. (4) The results suggest that illumination of intact chloroplasts causes an increase in the Mg2+ concentration of 1-3 mM in the stroma. Compared to the total Mg2+ content of chloroplasts, this increase is very low, but it appears to be high enough to have a possible function in the light regulation of CO2 fixation.     

Role of metal ions in coupling between chemical catalysis and conformational changes in ATP synthase

Isolated chloroplast ATP synthase (CF0F1) was used for determination of the structure-function relation by measuring the effect of divalent metal ions on the properties of ATPase. Mg2+ ions were more efficient catalysts than Ca2+ ions as indicated by Kcat/Km of 55.2 and 5.4, respectively. Other activity parameters related to binding, such as the Km of MATP and Ki of MADP, indicated a stronger binding in the presence of Mg2+ as seen from a Mg2+/Ca2+ ratio of 2.8 and 3.8, respectively. Strong binding of Ca2+ ions with a Kd of 0.03 +/- 00.6 microM-1 was detected only in the presence of ADP probably because of the positive interactive effect of CaADP as indicated in the inhibition properties. Mg2+ ions were more efficient catalysts also in other forms of the enzyme such as in the thylakoid membrane, in isolated CF0F1 and in CF1. The Mg2+/Ca2+ ratio of Kcat/Km was 5.3, 10.2 and 1.5 for the thylakoid membrane enzyme, the isolated CF0F1 and the soluble CF1 respectively. This indicated that Ca2+ ions became less efficient catalysts in the more intact and integrated enzyme while Mg2+ ions were as efficient in all forms of the enzyme. Unlike Mg2+, Ca2+ ions also did not support proton-coupled ATP synthesis and ATP driven proton pumping. It is suggested that the differences in the ligand structure of these two ions might be the reason for the differential function. An average 0.3 A shorter bond length of octahedral first coordination in Ca2+ ions caused a weaker binding of CaATP than that of MgATP. The effect of differential binding is discussed in relation to the binding of the transition state intermediate and to the rate of product release.     

Protective Effect of Pretreatment of Spinach Chloroplasts with Mg2+ Against Trypsin

It has been shown that fluorescence yield of chloroplasts at wavelength near 684 nm can be regulated by Mg+2. But on the other hand trypsin abolishes this Mg+2-induced fluorescence change. Pretreatment of chloroplasts with Mg+2 protects the Mg+2 induced chlorophyll a fluorescence change from trypsin. It is found that the protective effect of Mg+2 pretreatment of chloroplasts against trypsin is concentration dependent (at the range btween 1.5-12 mM Mg+2). At a 12 mM MgCl2 concentration it appears that trypsin has no effect on Mg+2-induced fluorescence change. Similar results were obtained with the determination of chlorophyll contents in the chloroplasts. Plants grown at different temperature produce chloroplasts which show similar characteristics. But lower fluorescence and chlorophyll change are found in the Low temperature grown plants. The above results support the evidence that pretreating the chloroplasts with Mg+2 causes a conformafional change in LHCPs and protecting the functional group that acts as regulator to the fluorescence change against trypsin. It is also proposed that pretreatment of chloroplasts with Mg+2 also protects the connection of chlorophyll molecule with protein against trypsin in thylakoid membrane.     

Effects of Lead on Activities of Photochemical Reaction and Key Enzymes of Carbon Assimilation in Spinach Chloroplast

Photosynthesis is one of the most sensitive processes to lead, but the effects of lead on the transformation of light energy of plants are still not clearly understood. In the present paper, spinach was cultivated in the experimental fields and was sprayed with various concentrations of PbCl2 solution. We investigated the effects of lead on the activities of photochemical reaction and the key enzymes of carbon assimilation in spinach chloroplast. The results showed that Pb2+ treatment could significantly inhibit the Hill reaction activity of spinach chloroplast and photophosphorylation, and it had a more conspicuous effect on cyclic photophosphorylation than non-cyclic photophosphorylation. The activities of ATPase on the thylakoid membrane were severely inhibited under Pb2+-treated condition, and Ca2+ ATPase activity was affected more obviously than Mg2+ ATPase activity. Meanwhile, the activities of the key enzymes of carbon assimilation were also significantly reduced by Pb2+, especially Rubisco activase. The reduction of dry weight of spinach caused by Pb2+ was more significant than that of fresh weight. It implied that Pb2+ could disturb light energy transformation of chloroplast.     

Evaluation of the Specific Roles of Anions in Electron Transport and Energy Transfer Reactions in Photosynthesis

Ionic environment is important in regulating photosynthetic reactions. The roles of cations, Mn²⁺, Mg²⁺, Ca²⁺, Na⁺, and K⁺ as cofactors in electron transport, energy transfer, phosphorylation, and carbon assimilation are better known than the roles of anions, except for chloride and bicarbonate. Only a limited information exists on the roles and effects of nitri formate, sulphate, and phosphate. In this review, we evaluate and highlight the roles of some specific anions on electron transport as well as on excitation energy transfer processes in photosynthesis. Anions exert significant effects on thyla membrane conformation and membrane fluidity, possibly by redistributing the thylakoid membrane surface charges. The anion/cation induced phase transitions in the hydrophilic domains of the thylakoid membranes are probably responsible for the various structural and co-related functional changes under stress. Anions are also important in regulation of energy distribution between the two photosystems. Anions do not only divert more energy from photosystem (PS) 2 to PS1, but can also reverse the effect of cations on energy distribution in a valence-dependent manner. Anions affect also the structure of the photosynthetic apparatus and excitation energy distribution between the two photosystems.     

超声波对铜绿微囊藻超微结构和生理特性的影响

为了研究超声波对蓝藻细胞的影响,利用超声波（40W）处理200 mL铜绿微囊藻（Microcystis aeruginosa） 悬浮液20min,之后继续培养并于不同时间取样检测。检测悬浮藻细胞生物量发现其3d降低了97.84%;分别观察1、3、5d时沉降藻细胞超微结构变化,发现13d时细胞内脂质颗粒和藻青素颗粒增多、类囊体片层断裂、藻胆体脱落,5d时拟核区萎缩消失、细胞基础结构解体、胞质出现空洞、胞内结构颗粒降解;检测藻细胞光合放氧速率、叶绿素a （Chl.a）、超氧化物歧化酶（SOD）和过氧化氢酶（CAT）活性、膜透性以及跨膜ATP酶活性,发现光合放氧速率3d下降24.83%,Chl.a含量5d下降23.75%,超声组细胞SOD活性变化幅度比较大,但总体上活性降低,而CAT活性则表现为先增后减,活性始终大于对照组,同时胞内有机物渗出量增大,三种跨膜ATP酶活性（Na+/K+-ATPase、Mg2+-ATPase 和Ca2+-ATPase）均先升后降,并与膜透性变化相关。以上结果表明,超声波使铜绿微囊藻细胞沉降,并对其造成了胁迫,使部分藻细胞光合作用减弱,光合色素遭到损伤,细胞膜透性增大,甚至引起藻细胞程序性死亡。SOD活力的快速降低表明超声波使藻细胞内超氧离子（O2-）过量累积,从而对藻细胞造成氧化损伤,除此之外,超声波使藻细胞基础结构破坏、细胞内结构颗粒降解、细胞膜透性增大,这些都可能是致使部分铜绿微囊藻细胞死亡的重要原因。铜绿微囊藻细胞CAT以及跨膜ATP酶活性增大,表明藻细胞增强抗氧化酶活性以及离子调控和能量活动以抵御超声波的胁迫,而当胁迫随着时间减小后,细胞开始恢复生长和代谢,酶活力开始降低。       

Mg2+ -dependent inactivation / H+ -dependent activation equilibrium of chloroplast F1-ATPase

The catalytic part of chloroplast thylakoid ATPase, the chloroplast coupling factor CF1, is reversibly inactivated during incubation in the presence of Mg2+. The inactivation has two phases. Its fast phase occurs at basic pH of the incubation medium (k = 6 min-1), while the slow phase ( k = 0.1-0.2 min-1) depends on pH only slightly throughout the studied range (5.5-9.0). As followed from changes in the inactivation effect of magnesium ions, Mg2+ affinity for the enzyme decreases dramatically with decreasing medium pH. The pH-dependence of Mg2+ dissociation apparent constant suggests that the binding/dissociation equilibrium is determined by protonation/deprotonation of specific acid-base groups of the enzyme. The analysis of pH-dependence plots gives the equilibrium constant of magnesium dissociation (3-9 M) and the dissociation constant of the protonated groups pK 5.8-6.7). Sodium azide is known to stabilize the inactive CF1-MgADP complex; when added to the incubation medium it diminishes the Mg2+ dissociation constant and has no effect on the dissociation constant of the acid-base groups. At lower pH, Mg2+-inactivated CF1-ATPase reactivates. Octyl glucoside accelerates the reactivation, while Triton-100 affects it only slightly. The reactivation rate of membrane-bound CF1 (thylakoid ATPase) inactivated by preincubation with Mg2+ in the presence of gramicidin is a few times higher than that of isolated CF1. These results suggest that the reactivation of isolated and membrane-bound CF1-ATPase is determined by protonation of a limited number of acid-base groups buried in the enzyme molecule.