Poklar N, Petrovcic N, Oblak M, Vesnaver G
Department of Chemistry, University of Ljubljana, Slovenia.
Protein Sci. 1999 Apr;8(4):832-40. doi: 10.1110/ps.8.4.832.
The effect of methylurea, N,N'-dimethylurea, ethylurea, and butylurea as well as guanidine hydrochloride (GuHCl), urea and pH on the thermal stability, structural properties, and preferential solvation changes accompanying the thermal unfolding of ribonuclease A (RNase A) has been investigated by differential scanning calorimetry (DSC), UV, and circular dichroism (CD) spectroscopy. The results show that the thermal stability of RNase A decreases with increasing concentration of denaturants and the size of the hydrophobic group substituted on the urea molecule. From CD measurements in the near- and far-UV range, it has been observed that the tertiary structure of RNase A melts at about 3 degrees C lower temperature than its secondary structure, which means that the hierarchy in structural building blocks exists for RNase A even at conditions at which according to DSC and UV measurements the RNase A unfolding can be interpreted in terms of a two-state approximation. The far-UV CD spectra also show that the final denatured states of RNase A at high temperatures in the presence of different denaturants including 4.5 M GuHCl are similar to each other but different from the one obtained in 4.5 M GuHCl at 25 degrees C. The concentration dependence of the preferential solvation change delta r23, expressed as the number of cosolvent molecules entering or leaving the solvation shell of the protein upon denaturation and calculated from DSC data, shows the same relative denaturation efficiency of alkylureas as other methods.
通过差示扫描量热法(DSC)、紫外光谱(UV)和圆二色光谱(CD),研究了甲基脲、N,N'-二甲基脲、乙基脲、丁基脲以及盐酸胍(GuHCl)、尿素和pH值对核糖核酸酶A(RNase A)热稳定性、结构性质以及热解折叠过程中优先溶剂化变化的影响。结果表明,RNase A的热稳定性随变性剂浓度的增加以及尿素分子上取代疏水基团尺寸的增大而降低。通过近紫外和远紫外范围内的CD测量发现,RNase A的三级结构在比其二级结构低约3℃的温度下解折叠,这意味着即使在根据DSC和UV测量可将RNase A解折叠解释为两态近似的条件下,RNase A在结构构建单元中仍存在层次结构。远紫外CD光谱还表明,在包括4.5 M GuHCl在内的不同变性剂存在下,RNase A在高温下的最终变性状态彼此相似,但与在25℃下4.5 M GuHCl中获得的状态不同。优先溶剂化变化Δr23的浓度依赖性(表示为变性时进入或离开蛋白质溶剂化壳层的共溶剂分子数,并根据DSC数据计算得出)显示,烷基脲的相对变性效率与其他方法相同。