脲和盐酸胍诱导的卵清溶菌酶分子去折叠过程中各稳定构象态的分布和过渡

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...     

Fabrication of chitosan microcapsules via layer-by-layer assembly for loading and in vitro release of heparin

The heparin-loaded microcapsules were successfully prepared by layer-by-layer deposition of chitosan (CHI) and heparin (Hep). Film growth was confirmed by the reversal of ζ-potentials during polysaccharide deposition. Both scanning electron microscopy and transmission electron microscope evidenced the integrity of (CHI/Hep)₅ capsules after the removal of cores. By assembling the carriers with chitosan that are inherently degradable, the capsules were engineered to degrade specifically in the presence of lysozyme. It was demonstrated that the loaded heparin was released from the capsules over a long period of time when being incubated in lysozyme solution. With these results, such CHI/Hep capsules may have a great potential as controlled release carrier for heparin.     

A Bulk Acoustic Wave Viscosity Sensor for Determination of Lysozyme Based on Lysis of Micrococcus Lysodeikeicus

 A method for determination of lysozyme with a Bulk Acoustic Wave (BAW) viscosity sensor is presented. It is based on the bacteriolytic action of lysozyme on Micrococcus lysodeikeicus (M. lysodeikeicus) and the response of the sensor to the viscosity and density change of this process. There was a good correlation between the frequency shift and the concentration of lysozyme in the range 10–100 μg/ml. The content of lysozyme in human saliva was determined by this method and the results obtained were in good agreement with those from the conventional turbidimetric method. This method has an advantage over the conventional turbidimetric method in that the amount of sample needed is smaller, the procedure is simpler and the concentration range of the bacterium suspension which can be used in the detection was extended. Received September 11, 1998. Revision March 15, 1999.     

Behavior of lysozyme adsorbed onto biological liquid crystal lipid monolayer at the air/water interface

The interaction between proteins and lipids is one of the basic problems of modern biochemistry and biophysics.The purpose of this study is to compare the penetration degree of lysozyme into 1,2-diapalmitoyl-sn-glycero-3-phosphocholine(DPPC) and 1,2-dipalmitoyl-sn-glycero-3-phosphoethano-lamine(DPPE) by analyzing the data of surface pressure–area(π–A) isotherms and surface pressure–time(π–T) curves.Lysozyme can penetrate into both DPPC and DPPE monolayers because of the increase of surface pressure at an initial pressure of 15 m N/m.However,the changes of DPPE are larger than DPPC,indicating stronger interaction of lysozyme with DPPE than DPPC.The reason may be due to the different head groups and phase state of DPPC and DPPE monolayers at the surface pressure of 15 m N/m.Atomic force microscopy reveals that lysozyme was absorbed by DPPC and DPPE monolayers,which leads to self-aggregation and self-assembly,forming irregular multimers and conical multimeric.Through analysis,we think that the process of polymer formation is similar to the aggregation mechanism of amyloid fibers.     

Photoinduced electron transfer between hen egg white lysozyme and anticancer drug menadione

The protein, hen egg white lysozyme, on photoexcitation undergoes electron transfer with menadione (2-methyl-1,4-naphthoquinone), a widely known anticancer drug. With the addition of menadione the fluorescence of lysozyme is quenched with the simultaneous formation of an excited state charge-transfer complex in the longer wavelength and a ground state complex. The former is further evident from laser flash photolysis studies, which indicate a tryptophan to menadione electron transfer. From fluorescence quenching studies the binding constant is found to be ∼1.7×10⁴ M⁻¹ with the corresponding changes in enthalpy (ΔH°) and entropy (ΔS°) as 12.24 kJ mol⁻¹ and 124.12 J mol⁻¹ K⁻¹, respectively, indicative of an entropy-driven process. The circular dichroism studies also show some structural changes with increase in α-helical content in the protein on interaction with menadione. Finally, docking studies give some insight into the role of Trp 108 of lysozyme in the interaction.     

脲或盐酸胍溶液中变性溶菌酶复性过程中集聚体的研究

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.     

异硫氰酸荧光素-溶菌酶的制备及晶体生长预研究

迄今尚未有适用于光源为488 nm激光扫描共聚焦显微镜研究用的溶菌酶. 为此, 用异硫氰酸荧光素作为探针标记了溶菌酶, 测定了溶菌酶标记物的紫外-可见吸收光谱和荧光光谱, 摸索了其晶体的生长条件. 实验结果表明, 在标记过程中异硫氰酸荧光素没有影响溶菌酶的生化性质, 标记后的溶菌酶可用于激光扫描共聚焦显微镜进行后续研究.     

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

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.     

Z及logI对离子交换色谱中脲变溶菌酶分子构象变化的表征

以溶菌酶(Lys)为目标蛋白,用计量置换保留理论(SDT-R)中的参数Z和logI对弱阳离子交换色谱(WCX)中“准天然态”和脲变还原与非还原的两种变性状态的Lys的分子构象变化进行了表征。发现在流动相中含有脲时,蛋白的保留仍服从SDT理论,可以准确测定在特定脲浓度条件下Lys的Z及logI值。结果表明,3种分子构象状态的Lys的Z值均随脲浓度改变呈现不连续变化;“准天然态”Lys在同一脲浓度条件下的Z值比变性状态的大,logI比变性状态的小,而非还原变性态和“准天然态”Lys的Z和logI值比较接近。还     

Direct Observation of Non-covalent Complexes for Phosphorylated Flavonoid-protein Interaction by ESI

Diethyl flavon-7-yl phosphate was synthesized by modified Atheron-Todd reaction. The result of ESI shows that the phosphated flavonoids possess stronger binding affinities toward proteins such as myoglobin, insulin and lysozyme and are easier to form the non-covalent complexes with them.