静电作用与修饰铜锌超氧化物歧化酶的稳定性

铜锌超氧化物歧化酶(Cu, Zn-SOD)表面的赖氨酸经化学修饰后, 酶的稳定性显著提高. 赖氨酸被修饰后, 酶的电荷结构遂发生变化, 从而影响到酶分子电场. 使用FDPB方法(有限差分法求解Poission-Boltzman方程)计算了酶修饰前后的静电场变化, 以及对维持酶的结构稳定起重要作用的Cu, Zn配位结构的影响.结果表明, Cu, Zn配位体的两级离解常数在酶修饰后分别约下降10³, 10⁶.     

狗肝铜锌超氧化物歧化酶的纯化

本文采用加热、硫酸铵分级沉淀和柱层析的方法,从狗肝中提纯了铜锌超氧化物歧化酶(Cu·Zn-SOD),并对其理化性质进行了鉴定。结果表明酶的纯度均一。与文献报道的不同来源的同类酶相同,狗肝Cu·Zn-SOD系由两个相同亚基组成的二聚体,每分子晦蛋白合有两个铜和两个锌原子。分子量33.6kD,N-末端氨基酸为丙氨酸。     

重组人超氧化物歧化酶化学修饰的初步研究

在高效表达重组人铜锌超氧化物歧化酶(rh Cu/Zn SOD),并纯化得到比活大于4000单位的 rh Cu/Zn SOD 纯品的基础上,采用活化酯法将聚乙二醇(PEG)与 rhCu/Zn SOD 交联,获得分子量约6万的 PEG-SOD 交联物.经 PEG 修饰的酶稳定性增强,表现为对酸、碱和热的耐受力均较未交联酶高.修饰酶的生物半衰期为15h,是天然酶的90倍,酶活性保留80%以上.还实验观察了修饰剂用量与修饰酶保留活性之间的关系.     

超氧化物歧化酶活性中心中铜离子的氧化还原研究

用电子顺磁共振EPR技术研究铜锌超氧化物歧化酶(Cu·Zn-SOD)与底物(O_2~(·-)反应达到平衡态时铜离子的EPR波谱表明,在平衡态时的铜离子处于还原态。用还原剂H_2O_2、NaBH_4处理Cu·Zn-SOD后,酶活力变化不同,电泳行为也不同。用NaBH_4处理SOD其活性及电泳行为接近天然酶,但经H_2O_2还原后的酶活性损失严重,电泳后出现多条色带。     

溶液介电常数对铜锌超氧化物歧化酶活性的影响

溶液介电常数对天然酶和修饰酶的活性影响不同,天然酶随介电常数增加而酶活性下降,修饰酶则反之,这表明静电相互作用在铜锌超氧化物歧化酶(Cu·Zn-SOD)与超氧阴离子(-O_2~(·-))反应过程中起着重要作用,酶分子活性中心附近ε-NH_3~+为O_2~(·-)进入活性中心提供静电吸引力。在有机溶剂中,SOD的构象会发生变化,从而导致酶活性降低。实验还表明,Cl~-对SOD有明显的抑制作用。     

铜锌超氧化物歧化酶的重组研究——Ⅰ.铜锌的去除和重组

在制备去Cu、Zn的酶蛋白方法上作了改进并提出新的制备途径,在此基础上对牛红细胞铜锌超氧化物歧化酶进行金属辅基去除和重组研究。通过对酶活性、吸收光谱、圆二色谱和电子自旋共振波谱变化的观察,比较系统地探究了天然酶(Holo-SOD),去Cu、Zn后的酶蛋白(Apo-SOD)和加入Cu~(2+)、Zn~(2+)重组后的酶(Reco-SOD)的性质,以及Cu和Zn对酶活性及功能方面的作用,其主要结果有以下几点:1.用改进法制备去除Cu、Zn的酶蛋白样品可以避免EDTA-Cu~(2+)络合物的污染,残存酶活力仅为天然酶的0.4%,在pH3.8～4.2条件下,加入Cu~(2+)、Zn~(2+)重组后,不仅酶活性可以恢复到98%,而且其UV、CD和ESR图谱均可以恢复到天然酶的状态。2.Cu为酶催化活性所必需。当过量的Zn~(2+)先加入酶蛋白中,然后再补加Cu~(2+),重组酶的活力恢复有所下降。而Zn~(2+)和Cu~(2+)单独加到酶蛋白中去时,Zn~(2+)对酶蛋白的UV图谱没有影响,Cu~(2+)则引起UV吸收大幅度上升。3.同时去除Cu、Zn后的酶蛋白(E_2E_2-SOD)比单独只去Cu后的酶蛋白(E_2Zn_2-SOD)的重组恢复更加困难。     

铜锌复合污染对铜富集植物大聚藻抗氧化酶活性的影响

以前期筛选的铜富集植物大聚藻为材料,采用两因素随机区组试验设计,通过盆栽试验研究了不同浓度铜锌复合污染对大聚藻抗氧化酶活性的影响,以揭示铜富集植物大聚藻对重金属的耐性机理,为芦溪河及其它类似污染河流的生态恢复与植被重建提供参考依据。结果表明:(1)铜锌复合污染条件下,大聚藻生物量都表现出低促高抑现象。(2)铜锌复合污染时,大聚藻MDA含量随铜锌浓度升高表现出先升高后降低的变化。(3)铜锌复合污染对大聚藻抗氧化酶系统活性均有不同程度的影响,低浓度铜锌复合污染对SOD(超氧化物歧化酶)、POD(过氧化物酶)和CAT(过氧化氢酶)有促进作用,而随浓度的升高则表现出不同的规律。研究发现,铜锌胁迫下,大聚藻细胞应急防御系统被启动,SOD、POD和CAT发挥作用,体内过量自由基及时被清除,使大聚藻能够保持高的耐性。     

模拟酸雨和铜复合污染对白花泡桐生理特性的影响及其解毒机制

采用盆栽方法,研究了模拟酸雨(pH分别为4.0、5.0)和Cu(0～200mg·kg-1)复合污染对白花泡桐生理特性的影响及其解毒机制.结果表明:未加Cu处理时,不同酸雨处理间,白花泡桐的叶绿素、类胡萝卜素、超氧阴离子、过氧化氢和丙二醛含量均差异不显著;100和200mg·kg-1Cu处理时,pH4.0处理的叶绿素和类胡萝卜素含量显著低于,而超氧阴离子、过氧化氢和丙二醛含量显著高于pH5.0处理.Cu处理的叶绿素a/b值明显高于未加Cu处理.随着酸雨酸度增加,叶片铜含量明显减少,而根部铜含量明显增加.pH5.0时,随Cu浓度增加,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)活性均持续增强,植物络合素和谷胱甘肽(GSH)总量均明显增加;而在pH4.0时,SOD、POD、CAT和APX活性呈先升后降,而GSH总量在Cu浓度为200mg·kg-1时明显下降.模拟酸雨加剧了高浓度Cu对白花泡桐的氧化胁迫.     

虾夷扇贝铜锌超氧化物歧化酶基因的克隆与转录表达特性分析

利用RACE和克隆等方法得到了虾夷扇贝铜锌超氧化物歧化酶(Cu/Zn-SOD)基因全长cDNA序列,该序列全长1 064 bp,5′和3′非编码区(UTR)分别为61 bp和541 bp,开放阅读框(ORF)462 bp,编码153个氨基酸和一个终止密码子.分析发现,此氨基酸序列含有形成二硫键的两个半胱氨酸残基以及4个铜结合位点、4个锌结合位点,与已知的Cu/Zn-SOD结构相似,与其它物种同源性较高.进行虾夷扇贝组织分布及发育过程中不同时期的实时荧光定量监测,发现鳃中Cu/Zn-SOD基因mRNA相对表达量最高,肾次之,血淋巴中最低;不同发育阶段Cu/Zn-SOD表达量变化明显,其中受精卵和早期D形幼体两个时期表达量相对较高.     

长半衰期重组人超氧化物歧化酶的研制及性质

一种双亲有机化合物聚苯乙烯马来酸丁酯(SMA)经酰胺键与重组人铜锌超氧化物歧化酶(rhCu/Zn SOD)共价交联,制得修饰酶.当42%游离氨基被修饰时,保留酶活力为88%.酶蛋白主链结构在修饰前后变化不大.与天然酶相比,修饰酶的生物半衰期延长了22倍,抗蛋白水解酶能力亦有所增强.     

Effects of low copper and high zinc intakes and related changes in Cu,Zn-superoxide dismutase activity on DMBA-induced mammary tumorigenesis

The effect of low copper and high zinc intakes on Cu,Zn-superoxide dismutase (Cu,Zn-SOD) activity and mammary tumorigenesis induced by 9,10-dimethyl-1,2-benzanthracene (DMBA) was investigated. Groups of 40 weanling female Sprague-Dawley rats were fed a modified AIN-76 diet containing the following (/kg diet): 1 mg Cu (0.016 mmol) and 30 mg Zn (0.459 mmol); 6 mg Cu (0.094 mmol) and 30 mg Zn (0.459 mmol) (control); or 6 mg Cu (0.094 mmol) and 150 mg Zn (2.295 mmol) for 21 wk. At 5 wk, 30 rats/group were given 4 mg (15.6 mumol) DMBA in corn oil intragastrically, and controls (10/group) received corn oil alone. Erythrocyte Cu,Zn-SOD activity was measured at 3, 5 (just before DMBA), 9, 13, 17, and 21 wk. The group fed the high-Zn diet had a slightly lower weight gain and food consumption. DMBA treatment had no effect on these parameters. Plasma and liver Cu concentration decreased in the low-Cu group. Femur zinc was significantly elevated in the high-Zn group. Erythrocyte Cu,Zn-SOD activity was decreased in the low-Cu group from 3 to 21 wk and was significantly elevated in the high-Zn group at 3 and 5 wk. In the low-Cu group, there were 5 nonmalignant adenomas and 3 malignant adenocarcinomas; in the control group, there were 4 adenomas and 3 adenocarcinomas; in the high-Zn group, there were 5 adenomas and 3 adenocarcinomas. No relationship between Cu,Zn-SOD activity and the presence of tumors could be found.     

Multiple isoelectric variants of copper, zinc-superoxide dismutase from rat liver

Isoelectric variants of Cu,Zn-superoxide dismutase (Cu,Zn-SOD) have been reported to exist in various organs including rat liver. To elucidate the biochemical characteristics of the variants, rat liver Cu,Zn-SOD was purified and isolated into eight variants, i.e., pI 5.15, 4.88, 4.80, 4.75, 4.70, 4.65, 4.60, and 4.50. The pI 4.88 variant had the highest specific activity (4245 U/mg protein) and the highest yield (45% of original activity). The descending order of specific activity for the other variants was pI 4.80, 4.75, 5.15, 4.70, 4.65, 4.60, and 4.50. The specific activity correlated well with metal content. The specific activity for most variants was 5-9 times greater when determined at pH 10.0 than at pH 7.8. However, three preparations of pI 4.80 and 4.70 variants had 13.9-16.3 times greater specific activity at pH 10.0 versus 7.8, while one of the pI 4.60 variants was only 3.5 times greater. The rate of Coomasie brilliant blue G-250 binding was lowest with pI 4.88 followed by pIs 4.80 and 4.75. To evaluate the mechanisms which might produce these variants, the pI 4.88 variant was incubated with xanthine-xanthine oxidase or a mixture of rat liver microsome, NADPH, and sodium azide, and a shift to variants pI 4.80 and pI 4.75 was found. The shift was greatly inhibited by the presence of mannitol or by the omitting of azide, respectively. The existence of these variants was also confirmed by other methods: (i) direct application of rat liver 105,000g supernatant to an isoelectric focusing, and (ii) extraction of SOD from acetone powder prepared from rat liver homogenate. Results indicate that several variants most likely arise in tissue as a result of activated oxygen radical modification of variant pI 4.88.     

Purification and partial characterization of recombinant Cu, Zn containing superoxide dismutase of Cordyceps militaris in E.coli

The cDNA of Cu, Zn containing superoxide dismutase from the Cordyceps militaris SH (cm-SOD) was overexpressed in Escherichia coli BL 21 (DE3) using the pET-21a expression vector. The recombinant cell overexpressed the protein corresponding to 35+/-3% of total bacterial protein in cytosol. The purification was performed through three steps: DEAE-FF, CM-52, and G-100. After this purification procedure, a specific activity of 27272.7 U/mg of protein was reached, corresponding to 6.1-fold purification with a yield of 85.0%. The purity was homogeneous by SDS-PAGE analysis and 94.2+/-1.0% by CZE analysis. A subunit molecular mass of the recombinant enzyme was 15704 Da with a Cu and Zn element. In addition, the dimeric and polymeric structures were observed on MALDI-TOF-MS. Isoelectric point value of 7.0 was obtained for the recombinant enzyme that was sensitive to H2O2 and KCN. The recombinant enzyme remained 80+/-2% residual activity at pH 7.8, at 50 degrees C for 4h incubation. The properties: N-terminal amino acid sequence (the first 12 amino acid residues), pI, subunit molecular mass, thermo-stability of the purified recombinant SOD are similar to that of the native Cu, Zn-SOD from C. militaris (N-cm-SOD).     

Developmental regulation of rat lung Cu,Zn-superoxide dismutase.

In the present investigation we found that lung Cu,Zn-superoxide dismutase (SOD) activity (units/mg of DNA) increases steadily in the rat from birth to adulthood. The specific activity (units/micrograms of enzyme) of Cu,Zn-SOD was unchanged from birth to adulthood, excluding enzyme activation as a mechanism responsible for the increase in enzyme activity. Lung synthesis of Cu,Zn-SOD peaked at 1 day before birth and decreased thereafter to adult values. Calculations, based on rates of Cu,Zn-SOD synthesis and the tissue content of the enzyme, indicated that lung Cu,Zn-SOD activity increased during development owing to the rate of enzyme synthesis exceeding its rate of degradation by 5-10%. These calculations were supported by measurements of enzyme degradation in the neonatal (half-life, t1/2, = 12 h) and adult lung (t1/2 = greater than 100 h); the difference in half-life did not reflect the rates of overall protein degradation in the lung, since these rates were not different in lungs from neonatal and adult rats. We did not detect differences in the Mr or pI of Cu,Zn-SOD during development, but the susceptibility of the enzyme to inactivation by heat or copper chelation decreased with increasing age of the rats. We conclude that the progressive increase in activity of Cu,Zn-SOD is due to a rate of synthesis that exceeds degradation of the enzyme. The data also suggest that increased stabilization of enzyme conformation accounts for the greater half-life of the enzyme in lungs of adult compared with neonatal rats.     

蜡样芽胞杆菌M22铜锌超氧化物歧化酶基因的克隆及表达

采用PCR技术 ,从蜡样芽胞杆菌M2 2基因组DNA扩增到长 132 0bp的基因片段 .该片段含编码 179个氨基酸残基的开放阅读框 ,推定蛋白序列与报道的BacillusanthracisCu ,Zn SOD序列有96 %同源性 ,其中N端 16个氨基酸残基推定为信号肽序列 .将Cu ,Zn SOD编码区插入载体pET 2 2b(+ )构建表达载体pET 2 2b sodC ,转化E .coliBL2 1(DE3) ,IPTG诱导融合蛋白表达 .SDS PAGE显示 ,融合蛋白表观分子质量约 2 4kD ,占菌体裂解液中总蛋白的 2 1 3% .将此表达载体转入SOD缺陷型大肠杆菌PN132 ,赋予了该菌株对paraquat的抗性 .NBT光抑制法测定SOD活性显示 ,与PN132无SOD活性相比 ,重组子在IPTG诱导前SOD活性极低 (1 79U/mg) ,诱导后活性高达 6 9 76U/mg .非变性电泳结果显示 ,该酶活性不同程度地受到 5mmol LH2 O2 和 5mmol LKCN的抑制     

Schistosoma mansoni: cloning of a complementary DNA encoding a cytosolic Cu/Zn superoxide dismutase and high-yield expression of the enzymatically active gene product in Escherichia coli.

We recently purified a 16-kDa cytosolic Cu/Zn superoxide dismutase (CT Cu/Zn-SOD) from Schistosoma mansoni, a human parasite. Three peptide sequences were obtained, one from the unblocked N-terminal and two from internal peptides which were generated by digestions with trypsin and cyanogen bromide. These sequences were aligned to the corresponding sequences of 19 cytosolic Cu/Zn-SODs from various species. Degenerate oligonucleotides were then designed according to the sequence and the position of each peptide. The oligonucleotides were used to amplify a complete cDNA using the polymerase chain reaction with either adult schistosome total RNA or a cercariae lambda gt11 phage cDNA library as the template. The protein encoded by the cDNA has 153 amino acids with a calculated molecular weight of 15,693. It also has 60-65% homology to 19 cytosolic Cu/Zn-SOD from various species. All of the copper/zinc binding sites and SOD activity sites are conserved. Computer analysis predicts that the Cu/Zn-SOD has a pI value of 6.6, which is very close to the experimental results of IEF analysis (6.0 and 6.3). The entire coding sequence from the cDNA was cloned into a bacterial alkaline phosphatase cytosolic expression vector and a large amount of soluble product was expressed and purified to homogeneity. We compared the bacterially expressed Cu/Zn-SOD with the native enzyme derived from schistosomes and found that they are identical by the following criteria: (1) They focus at the same positions on IEF gels; (2) they form dimers in solution as measured by gel filtration; (3) they have the same unblocked N-terminal sequence; (4) they both are enzymatically active with comparable specific activities. The specific activity of the bacterially derived enzyme was increased somewhat (approximately 10%) by incubation with copper and zinc ions.     

Purification of Cu, Zn-Superoxide Dismutase Isoenzymes from Fish Liver: Appearance of New Isoforms as a Consequence of Pollution

Liver cell-free extracts of fish (Mugil sp.) from polluted environments show new Cu, Zn-SOD isoenzymes when analyzed by polyacrylamide gel electrophoresis or isoelectrofocusing followed by in situ staining for SOD activity. The most active isoenzymes, with pI 6.1 and 5.1, were present both in control and problem samples while the isoenzymes of intermediate pI value showed significant differences. Fish from control areas showed three intermediate isoenzymes with pI 5.7, 5.5 and 5.4 (the last one quite faint) while polluted animals showed three bands of pI 5.9, 5.45 and 5.35, this last very intense. To further characterize their utility as biomarkers, Cu, Zn-SOD isoenzymes from polluted fish livers were purified to homogeneity. Five superoxide dismutase peaks were purified, named thereafter I (pI 6.1) to V (pI 5.1) respectively. Isoenzymes I and V displayed the highest specific activity. Upon incubation with moderate H₂O₂ concentrations, pure isoenzyme I yielded more acidic bands with pI 5.5, 5.45 and 5.35, this last being predominant. The pure isoenzyme V generated only a new band of pI 5.0. Concomitant with oxidation, the activity of peaks I and V was lost in a H₂O₂ concentration-dependent manner. The pattern of the new acidic bands generated upon the oxidixing treatment of isoenzyme I closely resembles that observed in crude extracts from polluted animals.     

Purification and partial characterization of Cu, Zn containing superoxide dismutase from entomogenous fungal species Cordyceps militaris

Cordyceps militaris mycelium produced mainly Cu, Zn containing superoxide dismutase (Cu, Zn-SOD). Cu, Zn-SOD activity was detectable in the culture filtrates, and intracellular Cu, Zn-SOD activity as a proportion protein was highest in early log phase culture. The effects of Cu²⁺, Zn²⁺, Mn²⁺ and Fe²⁺ on enzyme biosynthesis were studied. The Cu, Zn-SOD was isolated and purified to homogeneity from C. militaris mycelium and partially characterized. The purification was performed through four steps: (NH₄)₂SO₄ precipitation, DEAE-sepharose™ fast flow anion-exchange chromatography, CM-650 cation-exchange chromatography, and Sephadex G-100 gel filtration chromatography. The purified enzyme had a molecular weight of 35070 ± 400 Da and consisted of two equal-sized subunits each having a Cu and Zn element. Isoelectric point value of 7.0 was obtained for the purified enzyme. The N-terminal amino acid sequence of the purified enzyme was determined for 12 amino acid residues and the sequences was compared with other Cu, Zn-SODs. The optimum pH of the purified enzyme was obtained to be 8.2–8.8. The purified enzyme remained stable at pH 5.8–9.8, 25 °C and up to 50 °C at pH 7.8 for 1.5 h incubation. The purified enzyme was sensitive to H₂O₂, KCN. 2.5 mM NaN₃, PMSF, Triton X-100, β-mercaptoethanol and DTT showed no significant inhibition effect on the purified enzyme within 5 h incubation period.     

Species and Organ Diversity in the Effects of Hydrogen Peroxide on Superoxide Dismutase Activity In Vitro

Superoxlde dlsmutase （SOD） is ubiquitous in aerobic organisms and constitutes the first link In the enzyme scavenging system of reactive oxygen species. In the present study, species and organ diversity of SOD activity In a solution and In an in-gel assay system, as well as the effects of hydrogen peroxide （H202） on SOD activity, were Investigated. In a solution assay system, SOD activity of jackfruIt root, shoot, leaves, axes, and cotyledons, of maize embryos and endosperms, of mung bean leaves and seeds, of sacred lotus axes and cotyledons, and of rice and wheat leaves was Increased by 1-15 mmol/L H2O2. However, SOD activity In rice root and seeds, maize roots and leaves, mung bean roots and shoots, and wheat seeds was decreased by 1-15 mmol/L H2O2. The SOD activity of wheat root and soybean roots, leaves, axes, and cotyledons was Increased by 1-4 mmol/L H2O2, but was decreased by concentrations of H2O2 〉4 mmol/L. The SOD activity of soybean shoots was not affected by 1-15 mmol/L H2O2. The SOD activity In crude mltochondrla of jackfruIt, maize, and upas seeds, as well as In purified mitochondria of jackfruIt, was also Increased by 1-15 mmol/L H2O2. In the In-gel assay system, the SOD In jackfruIt cotyledons was comprised of Mn-SOD, Cu/Zn-SOD, and Fe-SOD, the crude mltochondria of jackfruit seeds and maizes embryo was comprised of Mn-SOD and Cu/ Zn-SOD, and the crude mltochondria of maize seeds was comprised of Mn-SOD only. In the present study, H2O2 markedly Inhibited Cu/Zn-SOD and Fe-SOD activity.