稀土离子对CaM及Ca2+-Mg2+-ATPase活力及CD研究

研究了稀土离子（Ｌｎ３＋）对钙调蛋白（ＣａＭ）调控的Ｃａ２＋－Ｍｇ２＋－ＡＴＰａｓｅ的活力影响。结果表明,在ＣａＭ和Ｃａ２＋－Ｍｇ２＋－ＡＴＰａｓｅ的体系中,一些Ｌｎ３＋（Ｌａ３＋、Ｇｄ３＋）对由ＣａＭ调节的Ｃａ２＋－Ｍｇ２＋－ＡＴＰａｓｅ的活力影响呈现双相效应,即Ｌｎ３＋在低浓度时,能提高激活Ｃａ２＋－Ｍｇ２＋－ＡＴＰａｓｅ的水解活力;在高浓度时,则抑制ＣａＭ调节Ｃａ２＋－Ｍｇ２＋－ＡＴＰａｓｅ活力的能力;少数Ｌｎ３＋（Ｓｍ３＋）仅表现出抑制效应。在无ＣａＭ的Ｃａ２＋－Ｍｇ２＋－ＡＴＰａｓｅ体系中,高浓度的Ｌｎ３＋抑制Ｃａ２＋－Ｍｇ２＋－ＡＴＰａｓｅ的基础活力。结合圆二色（ＣＤ）谱信息对Ｌｎ３＋和ＣａＭ相互作用的分子机制进行了初步的探讨。     

轻稀土离子对钙调蛋白激活的磷酸二酯酶活力作用的影响

研究了轻稀土离子（Ｌｎ３＋）对钙调蛋白（ＣａＭ）调控的磷酸二酯酶（ＰＤＥ）活力的影响。结果表明,在无Ｃａ２＋的ＣａＭ（Ａｐｏ—ＣａＭ）体系中,由ＣａＭ调节的ＰＤＥ的活力随Ｌｎ３＋浓度的变化曲线是双相效应,即在高浓度时,Ｌｎ３＋具有抑制ＣａＭ调节ＰＤＥ活力的能力;低浓度的Ｌｎ３＋可以提高ＣａＭ调节ＰＤＥ活力的能力。在Ｃａ２＋４－ＣａＭ－ＰＤＥ体系中,高浓度的Ｌｎ３＋的加入能抑制ＣｈＭ调节ＰＤＥ活力的能力,其抑制程度因其离子不同而异。ＣａＭ的两类拮抗剂ＪｕＡ（非竞争性抑制剂）和ＴＦＰ（竞争性抑制剂）都能抑制ＣａＭ－Ｌｎ３＋－ＰＤＥ系统的活性。最后对Ｌｎ３＋和ＣａＭ相互作用的分子机制进行了初步的讨论。     

镧对烟草愈伤组织和油菜幼根钙含量的影响

ＭＳ培养基中添加镧（Ｌａ）（０ ．０１ ～０ ．１０ｍ ｍｏｌ·Ｌ－ １） 培养烟草愈伤组织,其总Ｃａ２ ＋ 及原生质体Ｃａ２ ＋ 含量明显比对照（ 不加Ｌａ） 低;长时间（ 继代培养３０ｄ） 较短时间培养（ 悬浮培养２４ｈ） 低．低浓度（０ ．０１ ～０ ．０５１ｍｏｌ·Ｌ－ １）Ｌａ３ ＋ 使细胞壁中Ｃａ２ ＋ 含量高于对照并随浓度提高而增加,高浓度（０ ．１０１ｍｏｌ·Ｌ－ １） 则减少．与Ｃｅ２ ＋ 相比较,Ｌａ３ ＋ 的排Ｃａ２ ＋ 作用稍弱于Ｃｅ３ ＋ ．以不同浓度Ｌａ（ＮＯ３）３ 溶液浸种,油菜幼根总Ｃａ２ ＋ 及原生质体中Ｃａ２ ＋ 含量变化与上述类似．Ｌａ３ ＋ 使烟草愈伤组织褐化明显,生长量比对照低．     

Ce~（3＋）与G－肌动蛋白结合引起的构象变化及对聚合的影响

用Ａｅｄａｎｓ标记肌动蛋白单体Ｇ－Ａｃｔｉｎ上Ｃｙｓ３７４残基作为探针,研究了稀土离子Ｃｅ~（３＋）与Ｇ－Ａｃｔｉｎ的结合及引起的微构象变化。Ｃｅ~（３＋）在低浓度（Ｃｅ~（３＋）／Ａｃｔｉｎ摩尔比＜１）和Ｃａ~（２＋）竞争Ｇ－Ａｃｔｉｎ上二价离子的高亲合位点。Ｃｅ~（３＋）取代Ｃａ~（２＋）引起Ａｅｄａｎｓ荧光强度增强与Ｍｇ~（２＋）取代Ｃａ~（２＋）的结果相同。Ｃｅ~（３＋）／Ａｃｔｉｎ＞ｌ则导致Ａｅｄａｎｓ荧光强度下降。说明Ｃｅ~（３＋）在高低两种浓度条件下结合的位点及对Ｃｖｓ３７４的微构象的影响不同。时间分辩测得的Ａｅｄａｎｓ荧光寿命也支持这一结论。ＣＤ谱结果表明Ｃｅ~（３＋）／Ａｃｔｉｎ＜０．４,Ａｃｔｉｎ的二级结构增加,大于０．４又导致其失去。Ｃｅ~（３＋）－Ａｃｔｉｎ在有／无游离ＡＴＰ时用聚合液诱导的聚合结果表明,无游离ＡＴＰ时,极低浓度Ｃｅ~（３＋）促进聚合,高浓度虽有促进但有所减弱;有游离ＡＴＰ时,Ｃｅ~（３＋）／Ａｃｔｉｎ在实验范围内促进聚合。     

杂种小麦及亲本旗叶老化过程中RubisCO特性的研究

小麦（ＴｒｉｔｉｃｕｍａｅｓｔｉｖｕｍＬ．）旗叶的ＲｕＢＰｃａｓｅ活性、含量及ＲｕＢＰｏａｓｅ活性在旗叶全展或全展后１０ｄ达最大值,以后逐渐下降。与亲本相比,供试杂种小麦“麦优４号”在旗叶一生中尤其老化后期上述参数皆表现明显的杂种优势。旗叶ＲｕＢＰｃａｓｅ比活性在叶绿素缓降期保持平稳,在叶绿素速降期逐渐下降。供试杂种小麦较亲本具有较高的ＲｕＢＰ羧化酶和加氧酶活性,表明杂种小麦不仅具有较强的光合羧化作用,而且叶片光合作用过程中的光呼吸也较强。结果与旗叶ＲｕｂｉｓＣＯ亲合ＣＯ２和Ｏ２的动力学常数的测定结果相符。     

神经节苷脂（Gangliosides）对人红细胞膜Ca^2＋—Mg^2＋ATPase的影响

神经节苷脂（Ｇａｎｇｌｉｏｓｉｄｅｓ）是红细胞膜Ｃａ＾２＋－Ｍｇ２＋ＡＴＰａｓｅ的一种激活剂,这种激活作用也是依赖于Ｃａ＾２＋存在。在２００μｍｏｌ／Ｌ Ｃａ＾２＋存在的反应体系中,１００μｇ／ｍＬ Ｇａｎｇｌｉｏｓｉｄｅｓ对Ｃａ＾２＋－Ｍｇ＾２＋ＡＴＰａｓｅ的激活作用最大,为基本酶活性的１５０％以上。实验还发现ＣａＭ拮抗剂三氟嗪（ＴＥＰ）、粉防已碱（Ｔｅｔ）等也同样抑制Ｇａｎｇｌｉｏｓｉｄｅｓ的     

PAF对肺内小动脉平滑肌细胞TXA_2，PGI_2乃Ca~（2＋）－ATPase的影响

本工作采用分离培养家兔肺内小动脉平滑肌细胞（ＰＡＳＭＣｓ），观察了外源性血小板活化因子（ｐｌａｔｅｌｅｔａｃｔｉｖａｔｉｎｇｆａｃｔｏｒ，ＰＡＦ）、ＢＮ５２０２１（ＰＡＦ受体拮抗剂）、吲哚美辛、维拉帕米对ＰＡＳＭＣｓ产生血栓素Ａ_２（ＴｘＡ_２）、前列环素（ＰＧＩ_２）及对细胞膜Ｃａ~（２＋）－ＡＴＰａｓｅ活力的影响。结果表明：（１）基础状态下ＰＡＳＭＣｓ存在花生四烯酸（ＡＡ）代谢。（２）外源性ＰＡＦ通过受体后途径激活环加氧酶促进ＡＡ代谢致ＴＸＡ_２及ＰＧＩ－２增加，ＴＸＡ_２／ＰＧＩ_２比值无明显变化。（３）外源性ＰＡＦ能直接抑制Ｃａ~（２＋）－ＡＴＰａｓｅ活力。（４）维拉帕米可逆转ＰＡＦ抑制ＰＡＳＭＣｓ膜Ｃａ~（２＋）－ＡＴＰａｓｅ活力的效应。     

五种酶组织化学方洁显示大鼠海马微血管的比较

本文对１０例成年Ｗｉｓｔａｒ大鼠海马,应用过氧化物酶二氨基联苯胺（ＤＡＢ）法、碱性磷酸酶（ＡＩＰ）、镁离子激活的三磷酸腺苷酶（Ｍｇ（２＋）－ＡＴＰａｓｅ）、钙离子激活的三磷酸腺昔酶（Ｃａ（２＋）－ＡＴＰａｓｅ）和５’－核苷酸酶（５’－Ｎａｓｅ）等酶组织化学方法显示其微血管,并应用体视学方法测算,比较上述方法显示微血管的效果,结果表明：ＤＡＢ法显示微血管的效果最好,ＡＩＰ法次之,Ｍｇ（２＋）－ＡＴ－Ｐａｓｅ法再次之。大鼠海马微血管Ｃａ（２＋）－ＡＴＰａｓｅ呈弱阳性,５‘－Ｎａｓｅ呈阴性。ＤＡＢ法和Ｍｇ（２＋）－ＡＴＰａｓｅ法分别适宜作微血管长度密度和血管直径的定量分析。     

神经节苷脂（Gangliosides）对人红细胞膜Ca~（2＋）－Mg~（2＋）ATPase的影响

神经节苷脂（Ｇａｎｇｌｉｏｓｉｄｅｓ）是红细胞膜Ｃａ~（２＋）－Ｍｇ~（２＋）ＡＴＰａｓｅ的一种激活剂,这种激活作用也是依赖于Ｃａ~（２＋）存在。在２００μｍｏｌ／ＬＣａ~（２＋）存在的反应体系中,１００μｇ／ｍＬＧａｎｇｌｉｏｓｉｄｅｓ对Ｃａ~（２＋）－Ｍｇ~（２＋）ＡＴＰａｓｅ的激活作用最大,为基本酶活性的１５０％以上。实验还发现ＣａＭ拮抗剂三氟拉嗪（ＴＦＰ）、粉防已碱（Ｔｅｔ）等也同样抑制Ｇａｎｇｌｉｏｓｉｄｅｓ的这种激活作用。其抑制的ＩＣ_（５０）值为２５μｍｏｌ／Ｌ和３０μｍｏ１／Ｌ;而此浓度下抑制剂存在的反应体系中,对Ｃａ~（２＋）－Ｍｇ~（２＋）ＡＴＰａｓｅ的基本活性影响不大。     

介质Ca^2＋和La^3＋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的影响,都呈现出低浓度对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。     

The effects of Mg2+ on rat liver microsomal Ca2+ sequestration

The effects of Mg2+ on the hepatic microsomal Ca2(+)-sequestering system was tested. Ca2(+)-ATPase activity and Ca2+ uptake were both dependent on the concentration of free Mg2+, reaching maximum levels at 2 mM. The effects of Mg-ATP were also influenced by the concentration of free Mg2+, being maximally effective at a ratio of 1:1. The results suggest that Mg2+ influences Ca2+ sequestration at various steps, namely in addition to forming the substrate of the Ca2(+)-ATPase reaction, Mg-ATP, Mg2+ stimulates the reaction at an additional step, as indicated by its stimulatory effect on the Ca2(+)-ATPase reaction and on Ca2+ uptake, even at optimal Mg-ATP levels. The stimulatory effect of Mg2+ was evident at various pH levels tested, and it was nucleotide specific. The stimulatory effect of Mg2+ might be exerted at the dephosphorylation step of the enzymatic reaction or at an other, yet undefined, site. The results demonstrate a plural effect of Mg2+ on the hepatic microsomal sequestration system. This indicates that, depending on its magnitude, changes in Mg2+ distribution might influence cytosolic Ca2+ levels.     

The deoxyribonuclease induced after infection of KB cells by herpes simplex virus type 1 or type 2. I. Purification and characterization of the enzyme.

The deoxyribonuclease induced in KB cells by herpes simplex virus (HSV) type 1 and type 2 has been purified. Both enzymes are able to completely degrade single- and double-stranded DNA yielding 5'-monophosphonucleotides as the sole products. A divalent cation, either Mg2+ or Mn2+, is an absolute requirement for catalysis and a reducing agent is necessary for enzyme stability. The maximum rate of reaction is achieved with 5 mM MgCl2 for both HSV-1 and HSV-2 DNase. The optimum concentration for Mn2+ is 0.1 to 0.2 mM and no exonuclease activity is observed when the concentration of Mn2+ is greater than 1 mM. The rate of reaction at the optimal Mg2+ concentration is 3- to 5-fold greater than that at the optimal Mn2+ concentration. In the presence of Mg2+, the enzymes are inhibited upon the addition of Mn2+, Ca2+, and Zn2+. The enzymatic reaction is also inhibited by spermine and spermidine, but not by putrescine. Crude and purified HSV-1 and HSV-2 DNase can degrade both HSV-1 and HSV-2 DNA, but native HSV-1 DNA is hydrolyzed at only 22% of the rate and HSV-2 DNA at only 32% of the rate of Escherichia coli DNA. Although HSV-1 and HSV-2 DNase were similar, minor differences were observed in most other properties such as pH optimum, inhibition by high ionic strength, activation energy, and sedimentation coefficient. However, the enzymes differ immunologically.     

Cytoplasmic and plasma membrane adenosine triphosphatase of polymorphonuclear neutrophils: comparison of their enzymatic properties and attempt for a direct determination of myosin ATPase activity using polymorphonuclear neutrophil extract

Enzymatic properties of the ATPase of the plasma membrane and cytoplasmic myosin B from guinea-pig polymorphonuclear neutrophils were compared. In the plasma membrane, Mg2+- and Ca2+-activated ATPases showed the same dependence pattern on KCl concentration and pH, i.e., both ATPases increased with decreasing KCl concentration and with rising pH until pH 9.0. The maximum activation of Mg2+-ATPase was observed at 1 . 10(-3) M Mg2+. On the other hand, EDTA-activated ATPase activity was so low that no clear dependence curve was obtained. In myosin B, Mg2+-ATPase activity was below one-tenth that of the plasma membrane ATPase with the maximum activation at 1 . 10(-2) M Mg2+ and pH 9.0 EDTA- and Ca2+-activated ATPase exhibited almost the same activity and the same KCl-dependence curve, i.e., both ATPases increased and increasing KCl concentration. With regard to pH-dependence, Ca2+-ATPase showed a U-shaped curve with the minimum at pH 7.0, wherease EDTA-activated ATPase indicated a bell-shaped curve with the maximum at pH 9.0. Based on the findings that the EDTA-activated ATPase activity was hardly detected in the plasma membrane but high in myosin B, the distribution of ATPase activity on subcellular fractions was studied and the results obtained that the myosin-ATPase activity could be directly measured using the polymorphonuclear neutrophil extract if the EDTA-activated ATPase activity was used as an enzymatic marker for myosin.     

Effects of source and level of magnesium on catalase activity and its gene expression in livers of broiler chickens

The effects of dietary supplemental magnesium oxide (MgO), magnesium-L-aspartate (MgAsp) and monomagnesium-di-L-aspartate (MgdiAsp) on hepatic catalase (CAT) activity and its mRNA expression were investigated. A total of 360 one-day-old male Abor Acre broiler chickens were allocated to ten treatments, i.e. control plus 9 treatments from 3 x 3 factorial arrangement (Mg source, Mg level), each treatment with six replicates of 6 chickens. The birds were fed with the basal diet alone or supplemented with magnesium (Mg) at 0.9, 1.8, 2.7 g/kg of the diet from MgO, MgAsp or MgdiAsp. Results showed that hepatic Mg concentration increased quadratically as MgO or MgAsp supplementation increased (p < 0.01). Hepatic CAT activity increased linearly in birds fed with MgAsp or MgdiAsp (p < 0.01) and quadratically in birds fed with MgO (p < 0.05) as dietary Mg supplementation level increased. Hepatic CAT mRNA was linearly correlated with the dietary Mg supplementation level (p < 0.01). There were positive correlations among hepatic CAT activity, its mRNA expression level and hepatic Mg concentration (p < 0.01). No effect of Mg2+ on the purified CAT activity was detected in vitro enzymatic reaction system (p > 0.05). Supplemental MgAsp or MgdiAsp was more efficient to increase hepatic Mg concentrations, enhance hepatic CAT activity and its mRNA expression than MgO (p < 0.01). It can be concluded that dietary Mg supplementation could increase hepatic Mg concentration, enhance CAT mRNA expression and consequently enhance CAT activity, and the organic Mg (MgAsp or MgdiAsp) is much more efficient than the inorganic form (MgO).     

Effect of polaymines on yeast cell-free protein synthesizing system. I. Influence of spermine and spermidine on aminoacyl-tRNA transfer reaction.

Spermine and spermidine added to a Saccharomyces cerevisiae cell-free protein synthesizing system increased phenylalanine polymerization reaction several-fold at suboptimal concentration of Mg2+ and approximately two-fold at optimal amounts of Mg2+. The addition of polyamines greatly stimulated the enzymatic and nonenzymatic binding of phenylalanyl-tRNA and N-acetylphenylalanyl-tRNA to ribosomes. The binding of the acetylated derivative was higher than phenylalanyl-tRNA, however, as it was shown the former was bound exclusively to the A site of the ribosome. Contrary to the binding process, the puromycin reaction was not stimulated by spermine added at a concentration which enhanced the polyphenylalanine synthesis. These results indicate that polyamines have not only a sparing effect on the Mg2+ requirement for yeast protein synthesis in vitro and suggest that one of the possible sites of polyamines action might be the binding of aminoacyl-tRNA to ribosomes.     

Vanadate inhibition of brain (Ca+Mg)-ATPase

Vanadate was a potent inhibitor of the membrane-bound (Ca+Mg)-ATPase from rat brain, the concentration required for 50% inhibition under conditions optimal for enzymatic activity being 3 M. Vanadate inhibition increased with the MgCl₂ concentration, half-maximal inhibition occurring at 2 mM MgCl₂, near the MgCl₂ concentration required for half-maximal activation of the ATPase activity. MnCl₂ could substitute for MgCl₂, and at concentrations of 1 mM (Ca+Mn)-ATPase activity was greater than (Ca+Mg)-ATPase activity, although sensitivity to vanadate was less. Vanadate inhibition increased also with the KCl concentration, half-maximal inhibition occurring at 8 mM, again near the concentration required for half-maximal activation of ATPase activity. By contrast, NaCl stimulated (Ca+Mg)-ATPase activity without potentiating vanadate inhibition. These effects of cations on ATPase activity and vanadate inhibition resemble properties of certain transport ATPases and thus suggest mechanistic and functional similarities.     

Magnesium dependence of the measured equilibrium constants of aminoacyl-tRNA synthetases

The apparent equilibrium constants (K') for six reactions catalyzed by aminoacyl-tRNA synthetases from Escherichia coli were measured, the equations for the magnesium dependence of the equilibrium constants were derived, and best-fit analyses between the measured and calculated values were used. The K' values at 1 mM Mg(2+) ranged from 0.49 to 1.13. The apparent equilibrium constants increased with increasing Mg(2+) concentrations. The values were 2-3 times higher at 20 mM Mg(2+) than at 1 mM Mg(2+), and the dependence was similar in the class I and class II synthetases. The main reason for the Mg(2+) dependence is the existence of PP(i) as two magnesium complexes, but only one of them is the real product. AMP exists either as free AMP or as MgAMP, and therefore also has some effect on the measured equilibrium constant. However, these dependences alone cannot explain the measured results. The measured dependence of the K' on the Mg(2+) concentration is weaker than that caused by PP(i) and AMP. Different bindings of the Mg(2+) ions to the substrate tRNA and product aminoacyl-tRNA can explain this observation. The best-fit analysis suggests that tRNA reacts as a magnesium complex in the forward aminoacylation direction but this given Mg(2+) ion is not bound to aminoacyl-tRNA at the start of the reverse reaction. Thus Mg(2+) ions seem to have an active catalytic role, not only in the activation of the amino acid, but in the posttransfer steps of the aminoacyl-tRNA synthetase reaction, too.     

Investigations on the mitochondria of the house fly,Musca domestica L. I. Adenosinetriphosphatases

1. The ATPase activity of insect mitochondria has been investigated. A comparison was made to determine the distribution and nature of such activity in other isolated fractions of the house fly, Musca domestica L. 2. The ATPase in insect mitochondria is specific in that orthophosphate can be cleaved only from ATP. The Michaelis-Menten constant K(8) = 2.78 x 10(-3)M and V(max.) = 76 micrograms P min.(-1) mg.(-1) dry weight. 3. Mg(++) and Mn(++) activate this enzymatic reaction in mitochondria, but Ca(++) does not. The extent of activation is 60 per cent with the optimal concentration 6 x 10(-4)M. Experiments with combinations of Mg(++) and Mn(++) show that either ion can replace the other and that the effects are additive, depending solely on the final concentration of the combination. Concentrations of Mg, Mn, or Ca ions higher than 6 x 10(-3)M inhibit the enzyme. 4. Fluoride does not inhibit the ATPase of insect mitochondria, whereas azide and chloromercuribenzoate do. The per cent inhibition depends on the concentration of inhibitor. 5. Finely dispersed mitochondrial particles have much greater ATPase activity than intact mitochondria. The possible relationship of this observation to latent ATPase is considered. 6. A magnesium-activated adenylate kinase is present in these mitochondria. The liberated orthophosphate, derived from ADP, is the result of the activity of adenylate kinase followed by the specific ATPase. 7. ATP can be dephosphorylated by enzymes found in the muscle fibrils, and in a "soluble" fraction, as well as in mitochondria. The fibrillar ATPase is Ca(++)-activated. The "soluble" fraction, however, like the mitochondria, is Mg(++)-activated. The "soluble" ATP dephosphorylation mechanism is distinguished from the mitochondrial ATPase in that it is inhibited by fluoride. 8. The "soluble" fraction also contains a magnesium-activated inorganic pyrophosphatase. Fluoride completely inhibits this enzymatic reaction. 9. The possible mechanism of ATP dephosphorylation in the "soluble" fraction is discussed.