光谱学与光谱分析, 2011, 31 (8): 2220, 网络出版: 2011-08-29
超声波处理对脱脂麦胚分离蛋白结构的变化研究
Study on the Structure of Defatted Wheat Germ Protein Isolate under Ultrasonic Treatment
超声 脱脂麦胚分离蛋白 荧光光谱 傅里叶红外光谱 结构 Ultrasonic Defatted wheat germ protein isolate Fluorescence spectra FTIR Structure
摘要
应用傅里叶红外光谱(FTIR)、 荧光光谱研究超声处理对脱脂麦胚分离蛋白(DWGP)结构的变化, 建立DWGP高效酶解与其结构变化之间的关系。 研究发现, 超声处理均可提高DWGP的酶解效果, 特别是经超声功率600 W、 时间10 min处理后, 酶解液抑制活性与对照组相比提高了23.96%。 通过荧光光谱发现, 超声作用改变DWGP溶液荧光强度, 适当超声处理可使蛋白分子伸展、 生色基团外露, 有助于蛋白酶解后获得活性更高的抑制肽。 采用对FTIR谱酰胺Ⅰ带进行曲线拟合的方法, 定量分析了不同超声功率、 时间对DWGP二级结构的影响, 发现超声作用使β-折叠相对含量下降而β-转角含量增加, 这可能是DWGP酶解后获得高效抑制肽的主要原因。
Abstract
The structure changes of defatted wheat germ protein Isolate (DWGP) treated by ultrasonic was determined by FTIR and fluorescence spectra, and the effect of its structure changes on the high-efficient enzymatic hydrolysis was studied. Research showed that the efficiency of hydrolysate could be improved by ultrasonic treatment. Compared with control group, inhibitory activity of the hydrolysate was increased by 23.96% after the treatment of 600 W for 10 min. The fluorescence intensity of DWGP after ultrasonic treatment was found discovered to be changed. An appropriate ultrasonic treatment can unfold the protein molecule and make the chromogenic groups uncovered, which contribute to the acquirement of the higher-activity inhibitory peptide. The effects of various ultrasonic power and time on the secondary structure of DWGP were quantitatively determined via analysis of the amide Ⅰ changes of infrared spectra using curve fitting method. Content of β-sheet was decreased and β-turn was increased after ultrasonic treatment, which could be the main factor to make the prepared inhibitory peptides high efficient. The results provide a theoretical basis for the mechanism research of enzymatic hydrolysis of ultrasonic treated protein.
刘斌, 马海乐, 李树君, 田万敏, 吴本刚. 超声波处理对脱脂麦胚分离蛋白结构的变化研究[J]. 光谱学与光谱分析, 2011, 31(8): 2220. LIU Bin, MA Hai-le, LI Shu-jun, TIAN Wan-min, WU Ben-gang. Study on the Structure of Defatted Wheat Germ Protein Isolate under Ultrasonic Treatment[J]. Spectroscopy and Spectral Analysis, 2011, 31(8): 2220.