试验对超声场下双酶水解玉米蛋白的酶解反应条件进行了研究,并与恒温水浴条件下玉米蛋白的水解度进行了对照。
The conditions of double-enzyme hydrolyzing corn protein were studied under ultrasonic field. Enzymes are limited in industrial application because they can be inactivated easily.
玉米不脱胚即节省工序又对生产有利;蛋白质水解后可作氮源供发酵阶段利用,促进酵母生长,提高产酒精率。
The protein hydrolyzed can be used as nitrogen during the period of fermentation to prove the growth of yeast, in addition, increase the alcohol production rate.
在用碱水解玉米麸质粉生产玉米蛋白发泡粉的基础上,就玉米蛋白发泡粉得率低,纯度低,色泽深等问题进行了研究。
A study was done on the problems such as the relatively low yield, low purity and dark color of the corn-gluten foaming powder produced by means of hydrolyzing corn gluten with alkali.
利用碱性蛋白酶和木瓜蛋白酶双酶对玉米蛋白粉进行分步水解,确定制备玉米肽干粉的工艺流程。
The corn protein flour was hydrolyzed by a fractional hydrolysis with alkaline protease and caroid to produce corn peptide flour and the hydrolysis technological process was determined.
玉米蛋白在一定条件下水解可以得到大量的玉米活性肽,这些活性肽容易消化吸收,并且具有许多独特的生理功能。
A large number of corn polypeptides can be found through hydrolytic corn protein in proper condition. These peptides is easy to be taken in and have various biological functions.
采用蛋白酶和淀粉酶结合水解制备玉米皮膳食纤维,研究确立了玉米皮膳食纤维的双酶法制备工艺,进一步探讨了食品体系对玉米皮膳食纤维持水力的影响。
Proteinase and amylase were employed to produce the corn bran dietary fiber. The optimum technic was established and the character of dietary fiber in food system was discussed.
采用蛋白酶和淀粉酶结合水解制备玉米皮膳食纤维,研究确立了玉米皮膳食纤维的双酶法制备工艺,进一步探讨了食品体系对玉米皮膳食纤维持水力的影响。
Proteinase and amylase were employed to produce the corn bran dietary fiber. The optimum technic was established and the character of dietary fiber in food system was discussed.
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