东亚飞蝗谷胱甘肽S-转移酶分离纯化

通过硫酸铵沉淀技术和GSH-agarose亲和层析对东亚飞蝗Locusta migratoria manilensis(Meyen)5龄若虫谷胱甘肽S-转移酶(glutathione S-transferases,GSTs)进行了分离纯化。结果表明GSTs活性在硫酸铵各沉淀段均有分布,但在55%～100%沉淀段活性较高,在硫酸铵饱和度为85%时比活力最高,达到420.33μmol/min/mg protein,纯化倍数为18.86。根据硫酸铵粗沉淀谷胱甘肽S-转移酶结果,选择硫酸铵浓度为60%～90%沉淀段进行GSH-agarose亲和层析,纯化后比活力最高达到1365.29μmol/min/mg protein,纯化倍数达到61.25。经SDS-PAGE鉴定,得到的GST为1条带,亚基的分子量约为24kDa。     

蚯蚓谷胱甘肽转硫酶分离纯化的初步研究

本研究利用闪提技术,通过连续两次硫酸铵沉淀与柱层析的方法从蚯蚓中提取了谷胱甘肽转硫酶(GST),对提取条件和GST性质进行了初步探究。结果表明,GST的提取条件为:p H值7.0,闪提时间30 s,料液比1∶8,连续两次硫酸铵沉淀选取最佳饱和度分别为40%和80%。提取的GST比活力达到了1.236 U/mg Pr,纯化倍数达到了14倍,收率17.7%。利用SDS-PAGE电泳,得到GST亚基分子量约为25 k Da,GST分子量约为50 k Da。GST保持稳定的p H和温度的范围分别为p H 5.0~9.0和温度0~40℃。     

温特曲霉延胡索酸酶的提纯及性质研究

报道经硫酸鱼精蛋白沉淀、硫酸铵分级沉淀和葡聚糖凝胶G-200柱层析,再经冰冻干燥后从温特曲霉F-871菌体中获得延胡索酸酶,纯化倍数为31.70,回收率为36.64％,酶比活性为24.6U/mg。酶学性质研究表明:酶作用最适pH和温度分别为8.0和30℃,稳定pH范围为6.0～8.5,酶在35℃下保温30min后仍残留约90％以上的活力。     

重组萝卜磷脂氢谷胱甘肽过氧化物酶在毕赤酵母优化表达初步纯化与鉴定

将萝卜磷脂氢谷胱甘肽过氧化物酶（RsPHGPx）基因插入到分泌表达载体pPIC9K中,转化巴斯德毕赤酵母GS115细胞,筛选具有G418抗性的单拷贝转化子。经过优化表达条件,RsPHGPx在1%甲醇、pH6.0、28℃条件下诱导60h后得到最大表达量,产率约为102 mg/L。通过硫酸铵分级沉淀、脱盐柱脱盐、凝胶过滤等纯化步骤,得到了90%以上纯度的RsPHGPx．活性分析显示纯化获得的RsPHGPx具有依赖于GSH的还原活性, 比活性为4.2μmol/min·mg,为获得大量RsPHGPx而用于应用开发研究奠定了基础。     

仓鼠肝谷胱甘肽过氧化酶的提纯与鉴定

用硫酸铵分级沉淀后,经过Phenyl-sepharose CL-4B和DEAE-SephadexA-50柱层析分离得到了比活为1993units/mg、纯化倍数为443倍、产率为12％的仓鼠肝谷胱甘肽过氧化酶。提纯的酶在SDS-聚丙烯酰胺凝胶电泳中呈单一区带。     

中华稻蝗谷胱甘肽S-转移酶的分离纯化

采用硫酸铵沉淀法和GSH-agarose亲和层析法,对中华稻蝗Oxya chinensis(Thunberg)5龄若虫谷胱甘肽S-转移酶(glutathione S-transferases,GSTs)进行了分离纯化.结果表明:经硫酸铵沉淀,饱和度在60%-80%下沉淀中GSTs比活力较高,饱和度90%时比活力达到最高...     

骆驼蓬种子凝集素粗品活性的初步研究

采用硫酸铵分级沉淀法提取骆驼蓬种子凝集素粗品,并进行凝血活性和抗菌活性检测.凝血实验结果表明:(1)50%～60%硫酸铵饱和度下提取骆驼蓬种子的凝集素粗品对鸡红细胞的凝集活力最强,最低凝集浓度为0.6 mg/L,且其凝集素粗品的活力受温度、pH值、金属离子及糖溶液的影响.(2)不同硫酸铵饱和度沉淀获得的凝集素粗品对6种人体致病细菌及5种能引起水果腐烂和粮食霉变的真菌均有不同程度的抑制作用,其中50%～60%硫酸铵饱和度下提取的凝集素粗品抑菌活性最强,其浓度为1.071 mg/mL时对鲍曼不动杆菌和意大利青霉菌的抑菌环半径分别可达8.1 mm和4.9 mm.     

β-环糊精葡基转移酶的纯化方法及酶学性质的研究

β-环糊精葡基转移酶的粗酶液应用酚酞分光光度法测得该酶的环化活性为11.79U/mL。该粗酶液先经过淀粉-酒精沉淀或淀粉-硫酸铵沉淀初步纯化,然后经Sephacryl S-100凝胶层析后,比活力分别提高了16、21、50倍,由原来的11.44U/mg蛋白质增加到572.67U/mg蛋白质,回收率分别为72.4%、66.4%、40.9%,经SDS-PAGE电泳显示为单一的蛋白带,酶的分子量约为70kDa。酶学性质研究表明该酶的最适pH和最适温度分别为6.0和60℃,在pH6.0~10.0范围内,55℃以下保温30min基本保持稳定。纯化后的β-环糊精葡基转移酶的环化活性每克相当于35727U。     

聚乙二醇沉淀联用双水相萃取法纯化蛋清溶菌酶的研究

研究以聚乙二醇(Polyethylene Glycol,PEG)沉淀法联用PEG-硫酸铵双水相萃取体系纯化蛋清溶菌酶的工艺。结果表明,向预处理的鸡蛋清液中加PEG 4000至质量分数为16%时,可选择性沉淀除去蛋清中98.1%的杂蛋白,随后向上清液中加硫酸铵溶液至其质量分数为4.32%,可以构建PEG-硫酸铵双水相体系,分离上相即得高纯度溶菌酶。该法所得产物中96.34%为溶菌酶,其余为PEG 4000,不含有其它杂蛋白,溶菌酶总回收率达70.2%,比活为25 000 U/mg。该法简便易行,易于放大,每毫克精制溶菌酶中仅残留36.6μg PEG 4000,生物安全性较高。     

摄入异烟肼对家蚕幼虫体内谷胱甘肽氧化还原循环和谷胱甘肽S-转移酶活性的影响

为了建立家蚕Bombyx mori的药物筛选和毒性评价模型, 以剂量为2 000 mg/kg的抗结核模药异烟肼饲喂家蚕5龄第3天幼虫后检测其中肠和脂肪体的抗氧化解毒相关代谢的变化。结果表明： 雌蚕中肠组织中, 总谷胱甘肽(GSH+2GSSG)、 还原型谷胱甘肽(reduced glutathione, GSH)和氧化型谷胱甘肽(oxidized glutathione, GSSG)含量均呈现迅速上升再缓慢下降趋势; 谷胱甘肽S 转移酶(glutathione S-transferase, GST)活性升高到较大值后逐渐降低; GSH/GSSG的比值下降表明, 在72 min后中肠组织向氧化态转移。脂肪体组织中, 总谷胱甘肽、 GSH和GSSG含量变化均呈现迅速下降再迅速上升的趋势; GST活性达到最大值后逐渐降低后趋于平稳; GSH/GSSG比值升高表明, 在72 min后脂肪体组织向还原态转移。无论雌蚕还是雄蚕, 总谷胱甘肽、 GSH和GSSG含量以及GST活性均是脂肪体高于中肠。雌蚕的总谷胱甘肽含量、 GSH和GSSG含量高于雄蚕, 但雄蚕的GST活性高于雌性。结果说明, 摄入异烟肼引起了家蚕幼虫体内谷胱甘肽氧化还原状态的改变和酶活性的变化, 在这个过程中脂肪体起主要解毒代谢作用。     

七种抑制剂对两种白蚁谷胱甘肽S-转移酶活性抑制作用的比较

利用分光光度酶动力学方法,确定了白蚁谷胱甘肽S-转移酶（GSTs）的最适反应条件,并进一步研究了7种抑制剂对黑翅土白蚁Odontotermes formosanus (Shiraki)和黑胸散白蚁Reticulitermes chinensis Snyder GSTs活性的体外影响。结果表明：白蚁GSTs测定的最适反应条件为pH 6.5,温度25℃,最适反应时间2 min。黑翅土白蚁GSTs的米氏常数(K_mCDNB和K_mGSH)分别为0.11±0.02 mmol/L和0.81±0.16 mmol/L,最大反应速度(V_maxCDNB和V_maxGSH)分别为425.92±19.67 nmol/(min·mg)和534.86±39.05 nmol/(min·mg)。黑胸散白蚁GSTs的米氏常数(K_mCDNB和K_mGSH)分别为0.12±0.03 mmol/L和1.03±0.31 mmol/L,最大反应速度(V_maxCDNB和V_maxGSH)分别为544.39±37.19 nmol/(min·mg)和715.45±83.68 nmol/(min·mg)。浓度为2×10^-5 mol/L时,槲皮素和辛硫磷对黑胸散白蚁GSTs活性的抑制作用要强于黑翅土白蚁,对黑胸散白蚁GSTs活性的抑制作用分别为62.28％和44.89％,对黑翅土白蚁GSTs活性的抑制作用分别为54.96％和28.36％。高效氯氰菊酯、甲氰菊酯、啶虫脒和单宁酸对黑翅土白蚁GSTs活性的抑制作用要强于黑胸散白蚁,对黑翅土白蚁GSTs活性的抑制作用分别为39.43％,72.07％,52.24％和82.19％;对黑胸散白蚁GSTs活性的抑制作用分别为14.96％,40.23％,39.96％和57.80％。阿维菌素对黑翅土白蚁和黑胸散白蚁GSTs活性的抑制作用没有显著差异,对黑翅土白蚁和黑胸散白蚁GSTs活性的抑制作用分别为76.21％和76.88％。这表明两种白蚁对药剂的敏感性完全不同。实验结果还表明,在3.2×10^-8～2×10^-5 mol/L内,上述植物次生物质和杀虫剂对两种白蚁GSTs活性的抑制率存在明显的剂量-效应关系。     

Purification and properties of pyridoxal kinase from bovine brain

A 27,000-fold purification of pyridoxal kinase from bovine brain tissue has been achieved by a combination of ammonium sulfate fractionation, DEAE-cellulose chromatography, hydroxyapatite chromatography, Sephadex G-150 gel filtration, Blue Sepharose CL-6B chromatography, and Phenyl-Superose chromatography. The final chromatography step yields a homogeneous preparation of high specific activity (2105 nmol/min/mg protein). The molecular mass of the native enzyme was estimated to be approximately 80,000 on gel filtration. The subunit molecular mass was determined by sodium dodecyl sulfate polyacrylamide gel electrophoresis to be approximately 39,500. This indicates that pyridoxal kinase is a dimeric enzyme.     

运用α-氰代酯荧光底物检测抗性棉蚜羧酸酯酶代谢活性

为了研究抗性和敏感棉蚜Aphis gossypii品系对菊酯类药剂代谢的差异, 本实验合成了溴氰菊酯和高效氯氰菊酯报告荧光底物, 应用这两种底物水解后生成具有荧光化合物的特性,测定了不同品系棉蚜羧酸酯酶的代谢活性。结果表明: 氧化乐果棉蚜抗性和敏感品系羧酸酯酶对溴氰菊酯报告荧光底物的代谢活性分别为10.0和3.4 pmol/min·mg; 对高效氯氰菊酯报告荧光底物的代谢活性分别为4.0和2.4 pmol/min·mg, 抗性品系羧酸酯酶对溴氰菊酯和高效氯氰菊酯报告荧光底物的代谢活性分别为敏感品系的2.9和1.7倍; 溴氰菊酯棉蚜抗性和敏感品系羧酸酯酶对溴氰菊酯报告荧光底物的代谢活性分别为7.6和6.2 pmol/min·mg; 对高效氯氰菊酯报告荧光底物的代谢活性分别为9.3和5.2 pmol/min·mg, 抗性品系羧酸酯酶对溴氰菊酯和高效氯氰菊酯报告荧光底物的代谢活性分别为敏感品系的1.2和1.8倍。这种衍生的报告荧光底物能够用来检测抗性棉蚜羧酸酯酶的水解活性, 表明羧酸酯酶可能参与棉蚜对溴氰菊酯和氧化乐果抗性的形成。     

Technical improvement in the purification of enzymes from red algae using an aqueous two-phase partitioning system

The effective elimination of phycobiliproteins from crude enzyme preparation of the red alga Caloglossa continua (Okamura) King et Puttock (Ceramiales, Florideophyceae) was investigated in an aqueous two‐phase partitioning system (ATPS) by changing the concentrations of polyethylene glycol (PEG) and ammonium sulfate (AS). The phycobiliproteins shifted from the AS‐rich lower phase to the PEG‐rich upper phase in high PEG and AS concentrations. The best ATPS condition for the elimination of phycobiliproteins from the lower phase was obtained by the combination of 20% (weight/volume; w/v) PEG and 16% (w/v) AS. However, the recovery of aldolase and mannitol‐1‐phos‐phatase activities was significantly reduced. For purification of the enzymes, a combination of 15% (w/v) PEG and 16% (w/v) AS was the best ATPS condition, because a high specific activity and recovery of the enzymes were obtained. Under these conditions, 98% of the phycobiliproteins were removed from the lower phase. Therefore, the ATPS proved to be a very useful method as a first step in the purification of enzymes from red algae.     

田间施药对拟环纹豹蛛羧酸酯酶和乙酰胆碱酯酶分布及活性的影响

利用紫外分光光度法,对化学防治田(化防田)和生物防治田(生防田)中的拟环纹豹蛛Pardosa pseudoannulata体内乙酰胆碱酯酶(AChE)和羧酸酯酶(CarE)的分布及其活性进行了比较研究。结果表明,生防田拟环纹豹蛛身体各分部的AChE活性[包括头胸部1.251 nmol/(mg·min)、腹部0.467 nmol/(mg·min)和附肢0.760 nmol/(mg·min)]均高于化防田蜘蛛[包括头胸部0.895 nmol/(mg·min)、腹部0.445 nmol/(mg·min)和附肢0.724 nmol/(mg·min)],而生防田豹蛛的CarE活性[包括头胸部0.122 nmol/(mg·min)、腹部0.593 nmol/(mg·min)和附肢0.073 nmol/(mg·min)]均低于化防田蜘蛛[包括头胸部0.158 nmol/(mg·min)、腹部0.708 nmol/(mg·min)和附肢0.115 nmol/(mg·min)],说明化防田拟环纹豹蛛产生了一定程度的抗药性。拟环纹豹蛛体内的AChE主要集中在头胸部,CarE主要集中在腹部,这种分布特征是与其抗药性机制相适应的,并对其抗药性机制的形成做出了初步解释。这些结果也提示,拟环纹豹蛛对甲胺磷等农药的抗性不能在短期内形成,必须经历水稻→害虫→蜘蛛的较长的适应演化过程。     

Release of sphingomyelin phosphodiesterase (acid sphingomyelinase) by ammonium chloride from CL 1D mouse L-cells and human fibroblasts. Partial purification and characterization of the exported enzymes

In cultured human fibroblasts and mouse L-cells the lysosomotropic agent, ammonium chloride, caused release of acid sphingomyelinase into the culture medium. The water-soluble enzymes were partially purified by sequential chromatography on ConA-Sepharose, octyl-Sepharose and Sepharose CL-4B. Mouse sphingomyelinase was purified up to 64-fold and human sphingomyelinase 134-fold from the culture medium. Specific activities were 925 nmol/(h X mg) and 1 434 nmol/(h X mg), respectively. The final enzyme preparations obtained were free of other lysosomal enzyme activities tested and had very similar properties: optimal activity at pH 4.8 (mouse enzyme) and pH 4.4 (human enzyme), Km values of 6.2 X 10(-5)M and 2.4 X 10(-5)M, respectively, and an apparent molecular mass of 68 kDa. In isoelectric focusing the enzymes peaked at pH 4.78 (mouse enzyme) and pH 4.75 (human enzyme).     

Isolation and purification of NADP-dependent "L-malate"-enzyme from corn leaves]

Isolation and purification of "malic-enzyme" NADP was done using fractionation by ammonium sulfate, anion-exchange chromatography on DEAE cellulose, gel-filtration through Sephadex G-200 and purification on DEAE Sephadex A-50. The isoenzyme isolated had a specific activity of 40-50 mkM/mg protein per min (approximately 80-fold purification) and contained negligible admixtures.     

Purification and Properties of Isocitrate Lyase from Pupas of the Butterfly Papilio machaon L.

Key enzymes of the glyoxylate cycle, isocitrate lyase and malate synthase, were identified in pupas of the butterfly Papilio machaon L. The activities of these enzymes in pupas were 0.056 and 0.108 unit per mg protein, respectively. Isocitrate lyase was purified by a combination of various chromatographic steps including ammonium sulfate fractionation, ion-exchange chromatography on DEAE-Toyopearl, and gel filtration. The specific activity of the purified enzyme was 5.5 units per mg protein, which corresponded to 98-fold purification and 6% yield. The enzyme followed Michaelis-Menten kinetics (Km for isocitrate, 1.4 mM) and was competitively inhibited by succinate (Ki = 1.8 mM) and malate (Ki = 1 mM). The study of physicochemical properties of the enzyme showed that it is a homodimer with a subunit molecular weight of 68 +/- 2 kD and a pH optimum of 7.5 (in Tris-HCl buffer).