Most of lactases used in industry production come from kluyveromyces, aspergillus niger and aspergillus oryzae.
工业生产中使用的大多数乳糖酶来自克鲁维酵母,黑曲霉和米曲霉。
Proteinase, Aspergillus oryzae neutral;
中性米曲霉蛋白酶;
The rate-controlling step of resoluting N-acetyl-D, L-alanine with porous immobilized Aspergillus Oryzae cells was studied.
研究了固定化米曲霉菌光学拆分N-乙酰-D,L-丙氨酸反应过程的速率控制步骤。
At present , most of lactases used in industry production come from kluyveromyces , aspergillus niger and aspergillus oryzae.
目前,工业生产中使用的乳糖酶主要来源于乳酸克鲁维斯酵母菌、黑曲霉和米曲霉。
Aspergillus oryzae is of high efficiency in phytic acid degradation, and shows a potential use in industry-scale solid-state fermentation.
米曲霉是一种高效的植酸降解菌种,具有应用于大规模豆粕发酵的潜力;
The optimal conditions for Aspergillus oryzae O3 producing soybean isoflavone-glycosidase were determined by the single factor and orthogonal test experiment.
通过单因素实验和正交实验,探讨米曲霉O3产大豆异黄酮糖苷酶的最佳条件。
Aspergillus niger and flavoring yeast were added into Aspergillus oryzae mash to co-ferment in order to study the effect of improving the quality of soy sauce.
在米曲霉酱醪中添加黑曲霉和增香酵母共同发酵,研究其提升酱油品质的效果。
The effects of salt concentration on the activity of neutral proteinase produced by different Aspergillus oryzae have been studied in the soy sauce fermentation.
结果表明盐浓度对不同米曲霉所产中性蛋白酶活力的影响是不同的。
The effects of salt concentration on the activity of neutral proteinase produced by different Aspergillus oryzae have been studied in the soy sauce fermentation .
试验对酱油酿造过程中,盐浓度对不同米曲霉所产中性蛋白酶活力的影响进行了研究。
Then adding a variety of activating agents , the enzyme production of Aspergillus oryzae were investigated on the basis of the conditions of the best starter propagation process;
然后在获得最佳制曲条件的基础上,加入各种激活剂,考察对米曲霉产酶的影响;
Through adding some urging growth materials to koji, which mixed by Aspergillus oryzae and Aspergillus niger , this paper studied effect of it on spore number and protease activity.
在米曲霉和黑曲霉混合制曲的曲料中添加促生长物质进行试验,研究其对曲料蛋白酶活力和孢子数的影响。
Objective To clone the promoter sequence of AFLR gene from Aspergillus oryzae and to make it possible for further researches to reveal the mechanism of aflatoxin production by Aspergillus.
目的从米曲霉菌中克隆AFL R基因启动子序列,为进一步开展有关研究以深入阐明曲霉菌产生黄曲霉毒素的机制打下基础。
The results showed that Trichoderma viride, Aspergillus oryzae, Aspergillus niger, Rhisopus nigricans, Penicillium citrinum and Gloeosprium piperatum had the ability of transforming gentiopicroside.
结果表明:绿色木霉、米曲霉、黑曲霉、黑根霉、桔青霉以及辣椒炭疽菌能转化底物龙胆苦苷。
The results showed that Trichoderma viride, Aspergillus oryzae, Aspergillus niger, Rhisopus nigricans, Penicillium citrinum and Gloeosprium piperatum had the ability of transforming gentiopicroside.
结果表明:绿色木霉、米曲霉、黑曲霉、黑根霉、桔青霉以及辣椒炭疽菌能转化底物龙胆苦苷。
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