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1.
本文利用蛋白电泳和高效凝胶排阻层析法分析了还原脲变性蛋白溶菌酶稀释复性过程中的集聚体。当用复性液稀释复性还原脲变性蛋白溶菌酶时,会迅速产生可观量的沉淀。沉淀和上清液的不连续十二烷基硫酸钠-聚丙烯酰胺凝胶电泳(SDS-PAGE)和高效凝胶排阻层析分析结果表明,还原脲变性蛋白溶菌酶在稀释复性过程中除了能够复性成天然态蛋白溶菌酶分子外,还会形成可溶的蛋白溶菌酶分子二聚体和三聚体,二聚体和三聚体主要是靠分子间二硫键的错配连接而成的;可溶的蛋白溶菌酶分子二聚体之间通过非共价键相互作用而形成集聚体沉淀,而可溶的三聚体溶菌酶分子则仍处于复性液上清液中。  相似文献   

2.
采用非变性聚丙烯酰胺凝胶电泳、十二烷基硫酸钠-聚丙烯酰胺凝胶电泳、高效凝胶排阻色谱以及激光光散射光谱研究了脲变性牛碳酸酐酶B的稀释复性过程及其集聚作用。在脲变性牛碳酸酐酶B的稀释复性过程中,当最终复性液中脲浓度大于2.0mol/L时,牛碳酸酐酶B在复性液中以单分子和二分子集聚体形式存在;当最终复性液中脲浓度小于2.0mol/L大于1.0mol/L时,牛碳酸酐酶B在复性液中以单分子、二分子集聚体和少量多分子集聚体形式存在;而当最终复性液中脲浓度小于等于1.0mol/L时,脲变性牛碳酸酐酶B复性时会形成均匀透明的上清和不透明的沉淀,牛碳酸酐酶B在上清和沉淀中达到动态解离平衡,且在两相中都以单分子、二分子集聚体和少量多分子集聚体形式存在。溶液中二分子和多分子牛碳酸酐酶B集聚体是通过牛碳酸酐酶B分子之间的疏水和静电相互作用力而形成的,当溶液中这些成分达到一定浓度并且溶液中脲的浓度小于某一个值时,它们之间会通过非共价形式形成沉淀。  相似文献   

3.
边六交  杨晓燕  刘莉 《色谱》2005,23(2):129-133
 在体积排阻色谱柱上研究了还原剂存在时脲和盐酸胍变性的3种溶菌酶溶液的复性和分离过程。当变性液中原始溶菌酶浓度大于10 g/L时,变性溶菌酶在体积排阻色谱柱上除了复性为与未变性溶菌酶出峰时间相同的复性态溶菌酶分子外,还形成了溶菌酶折叠中间体的二分子集聚体。这个结果得到了用稀释法复性时溶菌酶的蛋白电泳检测结果的支持。与稀释法复性相比较,用体积排阻色谱法复性时所形成的折叠中间体二分子集聚体的量要远远低于用稀释法所形成的集聚体的量。  相似文献   

4.
边六交  杨晓燕  刘莉 《化学学报》2005,63(12):1081-1086
建立在蛋白质变性-复性三态模型的基础上, 给出了一个描述在变性液中变性蛋白质复性时蛋白质浓度和其复性率的关系式. 通过这个关系式, 可以获得两个重要的描述蛋白质变性-复性体系特征的参数, 一个是包含在一个集聚体分子中的变性蛋白质的分子数目n, 另一个是蛋白质从原始态到形成集聚体过程中的表观集聚平衡常数K. 以三种溶菌酶在脲和盐酸胍溶液中的变性-复性过程对此方程进行了验证, 结果表明所给出的方程能够很好地描述三种溶菌酶在这两种变性液中的复性结果, 三种溶菌酶在两种变性液中有形成二分子集聚体的趋势. 变性溶菌酶在复性过程中的电泳和高效凝胶排阻色谱也同时能够监测到复性过程中集聚体的形成, 并且监测结果与上述方程所得的结果一致.  相似文献   

5.
采用非变性聚丙烯酰胺凝胶电泳、十二烷基硫酸钠-聚丙烯酰胺凝胶电泳、高效凝胶排阻色谱和激光光散射光谱研究了脲和盐酸胍诱导的牛碳酸酐酶B的去折叠.实验结果表明,在脲和盐酸胍诱导的牛碳酸酐酶B的去折叠过程中,溶液中只含有单分子牛碳酸酐酶B和二分子牛碳酸酐酶B集聚体;二分子牛碳酸酐酶B集聚体是通过单分子牛碳酸酐酶B之间的疏水和...  相似文献   

6.
高效弱阳离子交换色谱法对脲还原变性溶菌酶的折叠研究   总被引:2,自引:0,他引:2  
用高效弱阳离子交换色谱(HPWCX)对脲还原变性溶菌酶(Lys)进行了复性研究. 在流动相中脲浓度固定为4.0 mol•L-1和选用对天然态蛋白有稳定作用的硫酸铵为盐或置换剂时, 在蛋白浓度为15.0~50.0 mg•mL-1时, HPWCX法比稀释法活性回收率高. 为了提高Lys的质量及活性回收率对所用色谱条件进行了优化研究, 当蛋白起始浓度为20.0 mg•mL-1时, Lys的质量回收率和活性收率分别为97.8%和95.4%. 表明此种方法简便且有可能对其他还原变性蛋白的复性具有通用性.  相似文献   

7.
脲和盐酸胍诱导溶菌酶去折叠的荧光相图法研究   总被引:13,自引:0,他引:13  
杨芳  梁毅  杨芳 《化学学报》2003,61(6):803-807
用荧光相图法分别研究了脲和盐酸胍诱导卵清溶菌酶去抓叠的过程。当变性体 系中无还原剂2-巯基乙醇存在、脲浓度从0变化至4.0 mol/L(或盐酸胍浓度从0变 化至3.0 mol/L)时,溶菌酶从天然态转变为部分折叠中间态,当脲浓度从4.0 mol/L变化至8.0 mol/L(或盐酸胍浓度从3.0 mol/L变化至6.0 mol/L)时,溶菌 酶从中间态转变为去折叠态,此时该蛋白的变性过程符合“三态模型”。而当变性 体系中有该还原剂存在时,溶菌酶则由天然态直接转变为去折叠态,此时脲诱导该 蛋白去折叠的过程符合曲型的“二态模型”。实难结果表明荧光相图法可以检测蛋 白南去抓叠的中间态。  相似文献   

8.
以内源荧光光谱和荧光相图法研究了脲和盐酸胍诱导的卵清溶菌酶分子的去折叠过程,结果表明,当变性液中脲和盐酸胍的浓度分别约为4.0和3.0 mol/L时,卵清溶菌酶分子的去折叠过程均存在一个折叠中间态,这两个去折叠过程均符合"三态模型".在卵清溶菌酶分子"三态"去折叠过程的基础上,通过变性剂分子和卵清溶菌酶分子之间的缔合一...  相似文献   

9.
采用变性和非变性电泳、高效凝胶排阻色谱、内源荧光发射光谱和荧光相图以及生物活性测定等方法,研究了盐酸胍诱导的变性卵清溶菌酶分子的重折叠过程及此过程中卵清溶菌酶分子各稳定构象态的分布和过渡.结果表明,当复性液中盐酸胍浓度分别约为5.0和2.4 mol/L时,变性卵清溶菌酶分子的重折叠过程各存在1个稳定折叠中间态,重折叠过程符合"四态模型".在卵清溶菌酶分子四态重折叠过程基础上,结合盐酸胍与卵清溶菌酶分子之间的缔合-解离平衡,给出了一个定量描述变性剂诱导的蛋白质分子复性过程中蛋白质分子复性率随溶液中变性剂浓度变化的方程.该方程包含2个特征折叠参数,一个是蛋白质分子从一个稳定构象态过渡到另一个稳定构象态的热力学过渡平衡常数k;另一个是在此过程中平均每个蛋白质分子所结合的变性剂分子数目m.通过这2个特征折叠参数能够定量描述盐酸胍诱导的变性卵清溶菌酶完全去折叠态、折叠中间态和天然态分子随复性液中盐酸胍浓度变化的分布和过渡情况.  相似文献   

10.
以变性和非变性电泳、体积排阻色谱、内源荧光发射光谱、荧光相图、荧光猝灭以及活性测定等组合分析方法,研究了脲诱导的淀粉液化芽孢杆菌α-淀粉酶分子的去折叠和重折叠过程。结果表明,在脲诱导的芽孢杆菌α-淀粉酶分子的去折叠和重折叠过程中,芽孢杆菌α-淀粉酶分子始终以单分子形式存在,不会形成分子间的聚集体或聚集体沉淀。当变性液或复性液中脲浓度约为4.0mol/L时,芽孢杆菌α-淀粉酶分子的去折叠和重折叠过程中均出现一个部分折叠中间体,两个过程均符合"三态模型"。脲诱导的芽孢杆菌α-淀粉酶分子重折叠过程的复性曲线几乎与芽孢杆菌α-淀粉酶分子去折叠过程的残余活性率曲线重合。通过这些结果,并结合盐酸胍诱导的芽孢杆菌α-淀粉酶分子的去折叠和重折叠过程,推断脲和盐酸胍诱导的芽孢杆菌α-淀粉酶分子的去折叠和重折叠过程分别是相互可逆的。  相似文献   

11.
The aggregation interaction between reduced-denatured egg white lysozymes during refolding procedure in urea solution was studied by means of reducing and non-reducing protein electrophoreses. Results of non-reducing sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE) of the supernatant and aggregate precipitate formed in refolding process show that except being refolded to native egg white lysozymes, the reduced-denatured lysozymes can also form the aggregates with molecular weights (MW) being separately about 30.0 and 35.0 kD, while the reducing SDS-PAGE and the refolding results in the presence of sodium dodecyl sulphate show that these aggregates are formed chiefly through the misconnection of disulfide bonds between the reduced-denatured lysozymes, and the aggregate precipitates are formed through the non-covalent interactions between the aggregates with molecular weight being about 30.0 kD. From the results of electrophoresis and size-exclusion chromatographic analyses, it can be inferred that the aggregates with molecular weights being about 30.0 and 35.0 kD are bi-molecular and tri-molecular egg white lysozyme aggregates, respectively. And finally, a suggested refolding mechanism of reduced-denatured egg white lysozymes in urea solution was presented.  相似文献   

12.
边六交  杨晓燕 《中国化学》2006,24(5):653-659
Based on three-state renaturation process of denatured proteins, an equation describing the effect of denaturant concentration on renaturation yield of denatured proteins was presented. By this equation, two parameters n(m1 -m2) and Ka can be obtained. The former indicates the difference in the number of denaturant molecules between the renaturation process of n number of refolding intermediates from refolding intermediate state to native state and their aggregate process from refolding intermediate state to aggregate state, the latter denotes the apparent aggregate equilibrium constant for protein molecules aggregated from native state to aggregate state, and from them, the characteristics of the renaturation process of denatured proteins in denaturant solution can be identified. This equation was tested by the renaturation processes of denatured egg white lysozyme in guanidine hydrochloride and urea solutions, with the results to show that when guanidine hydrochloride and urea concentrations were separately higher than 1.25 and 3.00 mol/L or separately lower than 1.00 and 3.00 mol/L, the refolding intermediates of egg white lysozymes were more easily aggregated to aggregate state or more easily renatured to native state, respectively. Under different initial total egg white lysozyme concentrations in urea solution, the refolding egg white lysozyme intermediates could be deduced to have a tendency to form a bimolecular intermediate aggregate, and this inference was further confirmed by their nonreducing SDS-PAGE and size exclusion chromatography.  相似文献   

13.
Oxidative refolding of the denatured/reduced lysozyme was investigated by using weak-cation exchange chromatography (WCX). The stationary phase of WCX binds to the reduced lysozyme and prevented it from forming intermolecular aggregates. At the same time urea and ammonium sulfate were added to the mobile phase to increase the elution strength for lysozyme. Ammonium sulfate can more stabilize the native protein than a common eluting agent,sodium chloride. Refolding of lysozyme by using this WCX is successfully. It was simply carried out to obtain a completely and correctly refolding of the denatured lysozyme at high concentration of 20.0 mg/mL.  相似文献   

14.
Herein we report a new strategy for protein refolding by taking advantage of the unique surface and pore characteristics of ethylene-bridged periodic mesoporous organosilica (PMO), which can effectively entrap unfolded proteins and assist refolding by controlled release into the refolding buffer. Hen egg white lysozyme was used as a model protein to demonstrate the new method of protein refolding. Through loading of denatured proteins inside uniform mesoporous channels tailored to accommodate individual protein, protein aggregation was minimized, and the folding rate was increased. Poly(ethyleneglycol) (PEG)-triggered continuous release of entrapped denatured lysozyme allowed high-yield refolding with high cumulative protein concentrations. The new method enhances the oxidative refolding of lysozyme (e.g., over 80% refolding yield at about 0.6 mg/mL).  相似文献   

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