Clotrimazole对菠菜叶绿体光合磷酸化和电子传递的抑制作用

10μmol/的clotrimazole不仅抑制光合磷酸化活力,而且抑制各种类型的电子传递,是一个典型的电子传递抑制剂。经过它对叶绿体放氧,荧光和毫秒延迟发光影响的比较研究表明:clotri—mazole在光合电子传递链上的作用部位在Q与PQ之间,即与DGMU的作用部位相同或相近。     

NaN_3对叶绿体Mg~（2＋）－ATPase的抑制作用再探

ＮａＮ３能抑制新鲜菠菜叶片叶绿体经ＤＴＴ和光激活的Ｍｇ２＋－ＡＴＰａｓｅ活力。这种抑制属非竞争性抑制。ＮａＮ３还能降低新鲜菠菜叶片叶绿体的反映光合磷酸化高能态的毫秒延迟发光和减少反映类爱体膜质子吸收变化的叶绿体的９－氨基吖啶的荧光猝灭。菠菜叶片经低温贮存几天后其叶绿体的超微结构发生变化,ＮａＮ３对叶绿体的上述影响就消失或基本消失。本实验指出ＮａＮ３是新鲜叶片叶绿体Ｈ＋－ＡＴＰａｓｅ的一个强有力的抑制剂。其影响受叶绿体制剂的内源无机磷酸盐含量调节。     

Substitutions of the Conserved Thr42 Increased the Roles of the ε-Subunit of Maize CF1 as CF1 Inhibitor and Proton Gate

The conserved residue Thr42 of -subunit of the chloroplast ATP synthase of maize (Zea mays L.) was substituted with Cys, Arg, and Ile, respectively, through site-directed mutagenesis. The over-expressed and refolded -proteins were purified by chromatography on DEAE-cellulose and FPLC on mono-Q column, which were as biologically active (inhibiting Ca²⁺-ATPase activity and blocking proton gate) as the native subunit isolated from chloroplasts. The T42C and T42R showed higher inhibitory activities on the soluble CF₁(–) Ca²⁺-ATPase than the WT. The T42I inhibited the Ca²⁺-ATPase activity of soluble CF₁ and restored photophosphorylation activity of membrane-bound CF₁ deficient in the most efficiently. Far-ultraviolet CD spectra showed that the portions of -helix and -sheet structures of the three mutants were somewhat different from WT. Thus the conserved residue Thr42 may be important for maintaining the structure and function of the -subunit and the basic functions of the -subunit as far as an inhibitor of Ca²⁺-ATPase and the proton gate are related.     

Contribution of ΔpH and ΔE to Photosynthesis of Chlamydomonas Reinhardtii

The contribution of two components (pH and E) of the proton motive force to photosynthesis of C. reinhardtii was studied. Valinomycin, a photophosphorylation uncoupler, decreased significantly the fast phase (related mainly to the membrane electric potential) of millisecond delayed light emission (ms-DLE) of C. reinhardtii. Nigericin, another photophosphorylation uncoupler, decreased the slow phase (related mainly to the proton gradient) and partly also the fast phase of ms-DLE. Both valinomycin and nigericin decreased the net ATP content and photosynthetic rate of C. reinhardtii, but the inhibition by nigericin was stronger than that by valinomycin. Hence both components of the proton motive force contribute to photosynthesis and although the contribution of pH is larger than that of E, the latter is not negligible in photosynthesis of C. reinhardtii.     

Studies on the relation between the fast phase of millisecond delayed light emission and the proton released from oxidation of water in spinach chloroplast

The relation between the fast phase of ms-DLE (delayed light emission measured with a phosphoroscope) and the proton released from water oxidation in spinach chloroplasts was studied in several aspects. When photophosphorylation was allowed to be coupled to the Hill reaction the intensity of the fast phase of ms-DLE of chloroplast was lowered more at 1 °C than at 25 °C, and the photophosphorylation rate within 40 ms of flashing light was higher at 1 °C than at 25 °C. Adding the subunit of ATP synthase to the chloroplast preparation to block the leakage of protons through ATP synthase, the intensity of the fast phase of ms-DLE was enhanced, to a larger extent at 1 °C than at 25°C. When the ms-DLE was measured under isotonic conditions, the intensity of fast phase of ms-DLE enhanced by proton released from oxidation of water was more pronounced. The above results support the suggestion that under lower temperature and isotonic conditions, the proton released from water oxidation was liable to be localized and could enhance the intensity of the fast phase of ms-DLE more effectively.     

N-terminal deletion of the gamma subunit affects the stabilization and activity of chloroplast ATP synthase

Five truncation mutants of chloroplast ATP synthase gamma subunit from spinach (Spinacia oleracea) lacking 8, 12, 16, 20 or 60 N-terminal amino acids were generated by PCR by a mutagenesis method. The recombinant gamma genes were overexpressed in Escherichia coli and assembled with alphabeta subunits into a native complex. The wild-type (WT) alphabetagamma assembly i.e. alphabetagammaWT exhibited high (Mg2+)-dependent and (Ca2+)-dependent ATP hydrolytic activity. Deletions of eight residues of the gamma subunit N-terminus caused a decrease in rates of ATP hydrolysis to 30% of that of the alphabetaWT assembly. Furthermore, only approximately 6% of ATP hydrolytic activity was retained with the sequential deletions of gamma subunit up to 20 residues compared with the activity of the alphabetaWT assembly. The inhibitory effect of the epsilon subunit on ATP hydrolysis of these alphabetagamma assemblies varied to a large extent. These observations indicate that the N-terminus of the gamma subunit is very important, together with other regions of the gamma subunit, in stabilization of the enzyme complex or during cooperative catalysis. In addition, the in vitro binding assay showed that the gamma subunit N-terminus is not a crucial region in binding of the epsilon subunit.     

内源无机磷酸盐对叶绿体Mg~（2＋）－ATP酶功能的调节

用ＳＴＮ（含蔗糖,０．４ｍｏｌ／Ｌ;ＮａＣｌ,０．０１ｍｏｌ／Ｌ和Ｔｒｉｓ－ＨＣｌ,０．０２ｍｏｌ／Ｌ,ｐＨ７．４）提取的菠菜叶片叶绿体再用ＳＴＮ洗涤后,它的内源无机磷酸盐含量急剧减少,其Ｍｇ２＋－ＡＴＰ酶水解ＡＴＰ的能力明显下降。进一步研究表明：叶绿体的内源无机磷酸盐含量减少会使反映叶绿体类囊体膜内外△ｐＨ变化的９－氨基吖啶的荧光猝灭减少,并加速光激活态ＡＴＰ酶的暗失活。     

Functional consequences of N- or C-terminal deletions of the delta subunit of chloroplast ATP synthase

Mutagenesis was used to generate seven truncation mutants of the spinach (Spinacia oleracea) chloroplast ATP synthase delta subunit lacking 5, 11, 17, or 35 amino acid residues from the N-terminus or 3, 9, or 15 residues from the C-terminus. Interactions between these mutants and all other subunits of the chloroplast ATPase were investigated by a yeast two-hybrid system. The results indicate that the N-terminal deletions mainly affected interactions between the delta subunit and the other part of CF(1), but did not significantly affect interactions with the CF(0) sector. In contrast, C-terminal truncations of the delta subunit mainly affected its interaction with the CF(0) sector and caused little impairment in interactions with the other part of CF(1). The conformation of the delta subunit C-terminal domain seems to be more sensitive to the truncations, as shown by minimal expression driven by C-terminal deleted (nine residues) mutants. Further studies showed C-terminal truncations of the delta subunit greatly impaired its ability to restore cyclic photophosphorylation in NaBr vesicles, whereas N-terminal truncations had little effect on the ability of delta to plug the CF(0) channel. None of the mutants impaired ATP hydrolysis by CF(1).     

Structure and Function of ε-Subunit of ATP Synthase in Higher Plant Chloroplast

Theε-subunit is the smallest subunit of chloroplast ATP synthase, and is known to inhibit ATPase activity in isolated CF1-ATPase. As a result ε is sometimes called an inhibitory subunit. In addition, and perhaps more importantly, theε-subunit is essential for the coupling of proton translocation to ATP synthesis (as proton gate). The relation between the structure and function ofε-subunit of ATP synthase in higher plant chloroplast has been studied by molecular biological methods such as site-directed mu-tagenesis and truncations for C- or N-terminus ofε-subunit. The results showed that: (1) Thr42 ofε-subunit is important for its structure and function; (2) compared with theε-subunit in E.. coli, theε-subunit of chloroplast ATP synthase is more sensitive to C- or N-terminus truncations.     

玉米叶绿体偶联因子ε亚基基因在E.coli中的表达

玉米叶绿体偶联因子ε亚基基因（ａｔｐＥ）被克隆到载体ｐＪＬＡ５０５和ｐＷＡ的多聚接头处,形成重组质粒ｐＪＬＡ５０５－ａｔｐＥ和ｐＷＡ－ａｔｐＥ,转化Ｅ．ｃｏｌｉ,并进行温敏诱导表达研究。在大肠杆菌中温敏诱导的基因表达产物经ＳＤＳ－ＰＡＧＥ测定,表达量达全菌蛋白质的３０％以上．Ｗｅｓｔｅｒｎ－ｂｌｏｔ分析结果表明温敏诱导的表达产物可特异性地与ε亚基抗体反应,在免疫双扩散中也观察到沉淀线。大肠杆菌表达的玉米叶绿体ａｔｐＥ基因产物以包含体形式存在于细菌中。经对包含体处理后;获得的粗产物可达８０％以上纯度,并具有天然ε亚基蛋白质的生物功能．