综述了近年来微生物纤维素酶和动物纤维素酶分子结构和降解机制方面的研究进展。
The research advances of molecular structure and the degradation mechanism of cellulases separated horn microorganism and animal west summarized.
开发在微生物细胞外部能稳定存在的纤维素酶使真菌和酵母在纤维素水解产物上培养有了可能。
Development of celluloses that are stable outside the cells of microorganisms enables the culturing of fungi and with yeasts on cellulose hydrolyzates.
通过纤维素刚果红培养基初筛,滤纸失重实验复筛,35种微生物中有4株表现出较高的纤维素酶活力。
In advantage of cellulose-congo red medium and weight losing test of the filter paper, 4 out of the above-mentioned 35 strains showed higher enzyme activities.
能够产生纤维素酶的微生物的产酶能力低下,且所产生的酶的组分不全或不平衡。
Microorganism that can produce cellulase has low ability to produce enzyme, and the components of the produced enzyme are incomplete or unbalanced.
能够产生纤维素酶的微生物的产酶能力低下,且所产生的酶的组分不全或不平衡。
Microorganism that can produce cellulase has low ability to produce enzyme, and the components of the produced enzyme are incomplete or unbalanced.
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