嗜水气单胞菌感染对背角无齿蚌5种免疫相关酶活力的影响

本研究以背角无齿蚌为材料,利用嗜水气单胞菌为诱导刺激物,对背角无齿蚌进行注射感染,在注射后3、6、12 、24、48h分别取血淋巴、肝胰腺,测定其超氧化物歧化酶（SOD）、酚氧化酶 (PO)、酸性磷酸酶 (ACP)、碱性磷酸酶 (AKP) 及过氧化氢酶 (CAT) 的活力,并研究各项酶活力的变化规律。结果表明：除3h肝胰腺外,实验组的SOD活力均不同程度地高于对照组;血清实验组的PO活力开始显著高于对照组,然后降低,而肝胰腺实验组的PO活力持续高于对照组;另外,与对照组相比,实验组中血淋巴与肝胰腺的ACP、AKP和CAT活力在不同的时间段虽然有所增强,但两者之间无显著差异。因此,认为SOD、PO活性可以作为背角无齿蚌免疫抗病功能指标参数,而ACP、AKP及CAT活性能否作为该参数还有待于进一步研究。     

白蜡虫碱性磷酸酶功能基团的研究

白蜡ricerus pela雌成虫经匀浆,正丁醇抽提,硫酸铵分段盐析,SephadexG-150凝胶过滤等步骤,得到比活力为136.65U/mg蛋白酶制品,用苯甲基磺酰氟、N-溴代琥珀酰亚胺、三硝基苯磺酸、二巯基苏糖醇、对氯汞苯甲酸、琥珀酸酐、溴乙酸、碘乙酸等化学修饰剂在一定条件下选择修饰白蜡虫碱性磷酸酶的几种氨基酸残基,并测定酶活力变化。结果表明：苯甲基磺酰氟、N-溴代琥珀酰亚胺、三硝基苯磺酸、琥珀酸酐、二巯基苏糖醇的修饰能显著抑制酶的活力,活力的降低与修饰剂的浓度有关,氯汞苯甲酸、溴乙酸、碘乙酸的修饰对酶的抑制作用影响较小。初步认为：丝氨酸、赖氨酸和色氨酸残基是白蜡虫碱性磷酸酶的必需功能基团,部分二硫键也是酶的催化功能所必需的。     

鲫鱼酸性磷酸酶酶学特性及不同效应物对酶活力的影响

经NaAc-HAc缓冲液(pH5.0)抽提,正丁醇处理,硫酸铵分级沉淀,DEAE-32离子交换层析,SephadexG-150凝胶过滤纯化,从鲫鱼内脏中分离纯化出电泳纯的酸性磷酸酶。该酶提纯倍数为30.82,比活力195.06U/mg。研究表明,该酶催化对硝基苯磷酸二钠水解反应,最适pH4.8,pH小于4和大于7时不稳定;最适温度45℃,温度高于50℃不稳定;米氏常数为0.23mmol/L,利用SDS-PAGE测定酶亚基分子量为33.3kD。化学修饰剂SUAN、PMSF、DTT、NBS对该酶活力影响不大,BrAc和IAc有明显抑制作用。金属离子对该酶催化活力有不同影响,Na+、K+、Ni2+、Co2+影响不显著,Mg2+、Ca2+、Ba2+、Mn2+有激活作用,Ag+、Cu2+、Pb2+、Cd2+有抑制作用,其中Mg2+、Ca2+、Pb2+、Cd2+对鲫鱼酸性磷酸酶荧光光谱的影响表明金属离子对酶活力的影响与酶构象改变有关。       

米曲霉GX0011β-糖基转移酶的化学修饰及活性中心研究

用化学修饰法及其修饰动力学对米曲霉GX0011β-果糖基转移酶的活性中心结构进行了研究。结果表明：NBS、PMSF、EDC能显著抑制酶的活性,底物对这些抑制有明显的保护作用,且残留酶活与修饰剂的浓度相关,抑制均符合拟一级动力学规律,进一步动力学分析,初步认定该酶活性中心包括至少一个丝氨酸（或苏氨酸）、一个色氨酸和一个天冬氨酸（或谷氨酸）残基。pCMB、TNBS能显著抑制酶的活性,但底物对抑制无明显保护作用,推断半胱氨酸和赖氨酸残基可能与维系酶活性中心构象有关,但不是酶活性中心基团。DEPC、AA和NAI对酶的活性抑制作用不明显,排除了组氨酸、精氨酸和酪氨酸残基是该酶活性中心必需基团的可能。     

米曲霉GX0011β-果糖基转移酶的化学修饰及活性中心研究

用化学修饰法及其修饰动力学对米曲霉GX0011β-果糖基转移酶的活性中心结构进行了研究。结果表明：NBS、PMSF、EDC能显著抑制酶的活性,底物对这些抑制有明显的保护作用,且残留酶活与修饰剂的浓度相关,抑制均符合拟一级动力学规律,进一步动力学分析,初步认定该酶活性中心包括至少一个丝氨酸（或苏氨酸）、一个色氨酸和一个天冬氨酸(或谷氨酸)残基。pCMB、TNBS能显著抑制酶的活性,但底物对抑制无明显保护作用,推断半胱氨酸和赖氨酸残基可能与维系酶活性中心构象有关,但不是酶活性中心基团。DEPC、AA和NAI对酶的活性抑制作用不明显,排除了组氨酸、精氨酸和酪氨酸残基是该酶活性中心必需基团的可能。     

鳗弧菌胞外金属蛋白酶的化学修饰研究

用DEPC、EDC、DTNB、PMSF等8种化学修饰剂对鳗弧菌胞外金属蛋白酶进行了化学修饰。结果表明化学修饰后酶的活力发生了改变,其中组氨酸、酸性氨基酸、半胱氨酸残基的化学修饰引起酶活性的明显降低,说明组氨酸残基、酸性氨基酸、半胱氨酸残基及其二硫键在维持酶活力中发挥重要作用,是酶活力所必需;而对精氨酸、丝氨酸、ε-氨基等修饰后酶活性影响较小,表明不是酶的活性所必须的基团。     

溜曲霉β-N-乙酰氨基己糖苷酶的化学修饰

用几种蛋白质侧链修饰试剂对β-N-乙酰氢基己糖苷酶进行化学修饰,在一定条件下,当巯基、羟基、酪氨酸残基分别被IAA及NEM、PMSF、NAI修饰后,酶活力不受影响,说明这些基团与活力无关。当羧基、组氨酸及色氨酸残基分别被EDC、DEP、NBS修饰后,酶活力大幅度下降,说明这些基团或者参与了酶催化作用,或者位于酶活性位区附近。     

慢性镉暴露对背角无齿蚌肝脏的氧化损伤效应

目的:探明氯化镉(CdCl2)暴露对背角无齿蚌肝脏中抗氧化酶活力及脂质过氧化的影响。方法:根据背角无齿蚌96 h镉离子(Cd²⁺)半致死剂量设置1个对照组和2个处理组(0.1和0.5 mg/L),分别检测镉暴露4周及镉清除4周期间背角无齿蚌肝脏中抗氧化酶[超氧化物歧化酶(SOD)、谷胱甘肽过氧化物酶(GPx)、过氧化氢酶(CAT)]的活力和脂质过氧化物丙二醛(MDA)的含量。结果:不同浓度Cd²⁺暴露对背角无齿蚌抗氧化酶活力及脂质过氧化产生不同程度的影响,低浓度Cd²⁺暴露的毒性效应较弱,高浓度Cd²⁺暴露可显著抑制肝脏SOD活力,诱导GPx活力升高,在暴露后期显著抑制CAT活力,MDA含量随着暴露时间的延长而显著升高。结论:慢性Cd²⁺暴露可影响背角无齿蚌肝脏抗氧化酶活力,引起脂质过氧化损伤,且作用机制与急性毒性不同。     

色氨酸残基在磷酸烯醇式丙酮酸羧化酶催化功能中的作用

在pH7.5条件下,用NBS对PEP羧化酶中色氨酸残基进行共价修饰表明,PEP羧化酶中48个色氨酸残基均能被NBS修饰。用邹承鲁图解法求得,其中4个残基为酶表现催化活性所必需的。 PEP羧化酶的变构效应剂G6P、Gly及Mal分别与酶预保温后,再经NBS修饰,前两种处理中,同样浓度的NBS所用修饰的色氨酸残基数和处理后的残存酶活与对照相比有很大的差异,而用Mal处理的,两者与对照相差无几。     

甘露聚糖酶Man23的化学修饰及活性必需基团测定

用化学修饰剂NEM、二甲基溴化锍、EDC、DEPC、TNM、对硝基苯乙二醛、PMSF、TNBS对芽孢杆菌B23产生的甘露聚糖酶M an23进行化学修饰,并测定修饰反应的动力学参数关系。结果显示半胱氨酸、色氨酸(1个)和谷氨酸(或天冬氨酸)残基(2个)是酶活性的必需基团;组氨酸、酪氨酸、精氨酸、丝氨酸和赖氨酸残基均为非必需基团。双向电泳结果显示酶蛋白分子具有一个链内二硫键(Cys90-Cys110)。荧光光谱测定结果显示该酶最大吸收峰为336 nm。底物作用导致酶的发射光谱发生蓝移,说明色氨酸残基位于酶蛋白分子内部的疏水区。     

Purification and properties of alkaline phosphatase of silkworm Bombyx mori

Alkaline phosphatase(AKP),from the succus entericus of silkworm,was purified using 10%-50% ammonium sulfate fractions,ion exchange chromatography Of DEAE-Sepharose,and size exclusion chromatography of Sephacryl S-200.The purification fold was 464 times and specified activity was 3936 U/mg.Optimum pH value of the phosphatase was 10.5,and was stable between pH 7.5 and 11.The optimum temperature of the phosphatase was 40℃ and it was unstable over 50℃.Km value of the phosphatase was 1.25 mmol/L.In a given condition,the phosphatase was selectively modified by PCMB,NBS,PMSE TNBS,SUAN,DTT,BrAc,and IAc,the results indicate that PMSF,SUA,BrAc,IAc,and TNBS could Obviously inhibit the activity of the phosphatase,and the degree of inhibition depended on the concentration of these reagents.There was little effect on the activity of phosphatase after treatment by PMSF,DTT,and NBT.We primarily conclude that mercapto and imidazole are essential for AKP from silkworm.Also,Lys residue and disulfide bands are necessary to protect the catalysis of the AKP.     

Purification and properties of alkaline phosphatase of silkworm Bombyx mori

Alkaline phosphatase (AKP), from the succus entericus of silkworm, was purified using 10%–50% ammonium sulfate fractions, ion exchange chromatography of DEAE-Sepharose, and size exclusion chromatography of Sephacryl S-200. The purification fold was 464 times and specified activity was 3 936 U/mg. Optimum pH value of the phosphatase was 10.5, and was stable between pH 7.5 and 11. The optimum temperature of the phosphatase was 40°C and it was unstable over 50°C. K _m value of the phosphatase was 1.25 mmol/L. In a given condition, the phosphatase was selectively modified by PCMB, NBS, PMSF, TNBS, SUAN, DTT, BrAc, and IAc, the results indicate that PMSF, SUA, BrAc, IAc, and TNBS could obviously inhibit the activity of the phosphatase, and the degree of inhibition depended on the concentration of these reagents. There was little effect on the activity of phosphatase after treatment by PMSF, DTT, and NBT. We primarily conclude that mercapto and imidazole are essential for AKP from silkworm. Also, Lys residue and disulfide bands are necessary to protect the catalysis of the AKP. __________ Translated from Journal of Southwest Normal University (Natural Science), 2005, 30(5): 925–934 [译自: 西南师范大学学报 (自然科学版), 2005, 30(5): 925–934]     

Rat liver xanthine oxidoreductase: effect of adenine on the oxidase and dehydrogenase activities

Xanthine oxidase (XO) and total oxidase plus dehydrogenase (XO+XDH) activities from rat liver were measured in the presence or absence of adenine in extracts prepared with or without DTT/PMSF in homogenization buffer. Presence of adenine in extracts, prepared with or without DTT/PMSF, caused a 45-60% decrease in XO and XO+XDH activities. Removal of adenine by dialysis from extracts prepared with or without DTT/PMSF resulted in the recovery of XO and XO+XDH activities to almost their pre-dialysis control levels. Enzyme activity after 24hr storage at -20 degrees C depended on the presence or absence of DTT/PMSF and adenine, with both XO and XO+XDH activities being lower in extracts with the combined presence of DTT/PMSF and adenine. Incubation of extracts at 37 degrees C for 30 minutes resulted in increased XO and XO+XDH activities, however, adenine-treated samples did not differ from their pre-incubation activities. The molecular mass of the enzyme from control and adenine-treated extracts was unchanged (300 kDa). Adenine-treated extracts prepared with or without DTT/PMSF showed higher D/O ratios in all post-dialysis samples when compared with their pre-dialysis ratios. The results suggest that adenine may play a role in preventing the dehydrogenase to oxidase conversion during extract preparation, storage, overnight dialysis and heat treatment.     

Radiomodfication of xanthine oxidoreductase system in the liver of mice by phenylmethylsulfonyl fluoride and dithiothreitol

The widely distributed xanthine oxidoreductase (XOR) system has been shown to be modulated upon exposure of animals to ionizing radiation through the conversion of xanthine dehydrogenase (XDH) into xanthine oxidase (XO). In the present work, radiomodification of the XOR system by phenylmethylsulfonyl fluoride (PMSF) and dithiothreitol (DTT) was examined using female Swiss albino mice which were irradiated with gamma rays at a dose rate 0.023 Gy s(-1). PMSF, a serine protease inhibitor, and DTT, the sulfhydryl reagent, were administered intraperitoneally prior to irradiation. The specific activities of XDH and XO as well as the XDH/XO ratio and the total activity (XDH+XO) were determined in the liver of the mice. The inhibition of XO activity, restoration of XDH activity, and increase in the XDH/XO ratio upon administration of PMSF were suggestive of irreversible conversion of XDH into XO mediated through serine proteases. The biochemical events required for the conversion were probably initiated during the early phase of irradiation, as the treatment with PMSF immediately after irradiation did not have a modulatory effect. Interestingly, DTT was not effective in modulating radiation-induced changes in the XOR system or oxidative damage in the liver of mice. The DTT treatment resulted in inhibition of the release of lactate dehydrogenase. However, the protection appears to be unrelated to the formation of TBARS. On the other hand, the presence of PMSF during irradiation inhibited radiation-induced oxidative damage and radiation-induced increases in the specific activity of lactate dehydrogenase. These findings suggest that a major effect of ionizing radiation is irreversible conversion of xanthine to xanthine oxidase.     

Trinitrophenylation of rabbit skeletal myosin by 2,4,6-trinitrobenzene sulfonate and treatment of trinitrophenyl myosin with dithiothreitol

Rabbit skeletal myosin was trinitrophenylated with 2,4,6-trinitrobenzene sulfonate (TNBS) in the presence or absence of inorganic pyrophosphate (PP1). When myosin trinitrophenylated either in the presence or absence of PP1 was treated with dithiothreitol (DTT), the absorbance at 345 nm of both trinitrophenylated myosins was decreased, as though the trinitrophenyl groups bound to myosin were removed. The DTT treatment also essentially reversed the inhibition of the EDTA-ATPase and Ca-ATPase activities that was caused by trinitrophenylation of myosin. These effects of trinitrophenylation and of DTT treatment were independent of the presence or absence of PP1 during the trinitrophenylation. In contrast, the PP1-induced formation of a difference spectrum of trinitrophenylated myosin was not affected by the DTT treatment. On the basis of these observations, it is suggested that the "reactive lysine residues," trinitrophenylation of which resulted in inhibition of the ATPase activities, are different from those whose trinitrophenyl groups show an altered spectrum on addition of PP1.     

Effect of prior treatment with Clostridium perfringens epsilon toxin inactivated by various agents on lethal, pressor and contractile activities of the toxin

Lethal and pressor activities, and the contractile responses of rat isolated ileum to Clostridium perfringens epsilon toxin, were significantly prevented by the prior administration of epsilon toxin inactivated by 1-ethyl-3-(3-diethyl-aminopropyl) carbodiimide in the presence of glycine methyl ester (EDC), 2,4,6-trinitrobenzene sulfonic acid (TNBS), succinic anhydride (SA) and ethoxyformic anhydride (EFA). However, the prior administration of the toxin inactivated by N-acetylimidazole (NAI), tetranitromethane (TNM) and N-bromosuccinimide (NBS) resulted in no inhibition of these biological activities. These data suggest that the toxin interacts with specific site(s) on target organs or tissues. The relationship between amino acid residues and the actions of the toxin is described.     

Chemical modification of intracellular cytosine deaminase fromChromobacterium violaceum YK 391

Cytosine deaminase (cytosine aminohydrolase, EC 3.5.4.1) stoichiometrically catalyzes the hydrolytic deamination of cytosine and 5-fluorocytosine to uracil and 5-fluorouracil, respectively. Amino acid residues located in or near the active sites of the intracellular cytosine deaminase fromChromobacterium violaceum YK 391 were identified by chemical modification studies. The enzymic activity was completely inhibited by chemical modifiers, such as 1 mM NBS, chloramine-T, ρ-CMB, ρ-HMB and iodine, and was strongly inhibited by 1 mM PMSF and pyridoxal 5′-phosphate. This chemical deactivation of the enzymic activity was reversed by a high concentration of cytosine. Furthermore, the deactivation of the enzymic activity by ρ-CMB was also reversed by 1 mM cysteine-HCl, DTT and 2-mercaptoethanol. These results suggested that cysteine, tryptophan and methionine residues might be located in or near the active sites of the enzyme, while serine and lysine were indirectly involved in the enzymic activity. The intracellular cytosine deaminase fromC. violaceum YK 391 was assumed to be a thiol enzyme.     

Phenylmethylsulfonyl fluoride (PMSF) inhibits 17 beta-estradiol binding to estrogen receptor from human prostate

Estrogen receptor binding studies were performed on cytosol obtained from human benign prostatic hyperplasia (BPH) tissue. Binding assays were done in the absence or presence of various concentrations of phenylmethylsulfonyl fluoride (PMSF). Saturation analysis and Scatchard plots showed that the binding of 17 beta -estradiol to the estrogen receptor (ER) was inhibited by PMSF. The nature of the inhibition appears to be uncompetitive, as determined from double-reciprocal plots. Glycerol density gradient centrifugation analysis also confirmed the results obtained with Scatchard plots. The inhibition observed in the presence of dithiothreitol (DTT) was greater than the inhibition observed in the absence of DTT. The maximum number of binding sites (Bmax) observed in our present study was 59.1 +/- 34.1 fmol/mg protein with an equilibrium dissociation constant (KD) of 2.2 +/- 2.2 nM. Our study indicates that PMSF significantly affects 17 beta -estradiol binding to ER and consequently alters the estimation of ER in Human BPH.     

The effects of various serine protease inhibitors on estrogen receptor steroid binding

Two serine protease inhibitors, phenylmethanesulfonyl fluoride (PMSF) and diisopropylfluorophosphate (DFP), were utilized to investigate the possible involvement of serine hydroxyl groups on 17 beta-estradiol binding to the rat estrogen receptor (ER). Single point saturation analysis and Scatchard analysis demonstrated that both 5 mM PMSF and 5 mM DFP were able to inhibit steroid binding to the ER after incubation at 37 degrees C, but neither were able to inhibit steroid binding of the nonactivated ER (0-4 degrees C). The reducing agent dithiothreitol (DTT) was used to differentiate between the interaction of PMSF with serine groups or with sulfhydryl groups of the receptor. When incubated in the presence of 5 mM PMSF, various concentrations of DTT up to 25 mM were not able to overcome the inhibition of this agent, indicating that there was no interaction of PMSF with sulfhydryl groups. Thus, these findings indicate that serine hydroxyl groups are involved in steroid binding of the rat ER.