Zhou Jian-Zhong, Zhang Hui, Yang Hai-Yan, Wang Li, Qian Hai-Feng
State Key Laboratory of Food Science and Technology and School of Food Science and Technology, Jiangnan University, 1800 Lihu Avenue, Wuxi, 214122, People's Republic of China.
J Sci Food Agric. 2014 Aug;94(10):2009-15. doi: 10.1002/jsfa.6517. Epub 2014 Jan 3.
Heat-induced protein aggregation is important for the texture of various food products. Many types of food proteins have been found to assemble into fibrillar structures under certain conditions. We studied fibril formation of cottonseed 7S storage protein upon heating (for 0-720 min) at 90°C and pH 2.0, investigated the conversion rate, and determined the extent of thermal aggregation.
Thioflavin-T fluorescence and Congo-red analysis indicated the formation of amyloid-like fibrils upon heating. Centrifugal filtration indicated that the conversion was very low (<10%) until congossypin concentration up to 2 mg mL(-1), and the conversion increases with increasing heating time, but levels off after longer heating times. Dynamic light scattering and atomic force microscopy showed that the extent of thermal aggregation at pH 2.0, or contour length of the worm-like and fine-stranded aggregates, progressively increased with increasing heating time. Furthermore, reducing electrophoresis analyses indicated that progressive polypeptide hydrolysis occurred upon heating. Experiments indicate that congossypin can form heat-induced amyloid-like aggregates and the conversion of congossypin monomers into fibrils increased with heating time and protein concentration.
The results would be of vital importance for the utilisation of cottonseed proteins to produce thermally induced fibrillar gels with excellent properties.
热诱导蛋白质聚集对各种食品的质地很重要。已发现许多类型的食品蛋白质在某些条件下会组装成纤维状结构。我们研究了棉籽7S贮藏蛋白在90°C和pH 2.0下加热(0 - 720分钟)时的纤维形成,研究了转化率,并确定了热聚集程度。
硫黄素-T荧光和刚果红分析表明加热时形成了淀粉样纤维。离心过滤表明,直到棉子球蛋白浓度达到2 mg mL(-1),转化率都非常低(<10%),并且转化率随着加热时间的增加而增加,但在较长加热时间后趋于平稳。动态光散射和原子力显微镜显示,在pH 2.0时热聚集程度,即蠕虫状和细链状聚集体的轮廓长度,随着加热时间的增加而逐渐增加。此外,还原电泳分析表明加热时会发生渐进性多肽水解。实验表明,棉子球蛋白可形成热诱导淀粉样聚集体,并且棉子球蛋白单体向纤维的转化率随加热时间和蛋白质浓度的增加而增加。
这些结果对于利用棉籽蛋白生产具有优异性能的热诱导纤维状凝胶至关重要。
