里氏木霉

黑曲霉与里氏木霉原生质体形成和再生条件选择Ⅰ.缓冲稳定剂系统及酶配比

Optimized conditions for protoplast formation and regeneration of Aspergillus niger and Trichoderma reesei & ⅰ . selection for stablizer buffer system and enzyme mixture

进一步利用里氏木霉纤维素酶和固定化纤维二糖酶的协同作用，纤维原料的酶解得率可高达88.2%。

Under the synergetic reaction of T.reesei cellulase and immobilized cellobiase , the yield of hydrolysis was raised to88.2 % .

在培养条件方面，里氏木霉产木聚糖酶和β-葡聚糖酶的最适起始pH值分别是4.0和5.0，最适发酵温度均为30℃。

The optimal initial pH and fermentation condition was 4 . 0 at 30 ℃ for xylanase production and 5 . 0 at 30 ℃ for β - glucanase production .

里氏木霉纤维素酶在不同分子量区间滤纸酶活力的变化趋势与β-葡萄糖苷酶活力一致，而与CMC酶活力无关。

The changing trend of the filter paper activity was consistent to that of β - glucosidase activity , but did not respect with CMCase activity .

研究了生产低聚木糖（XOS）所得的废渣对里氏木霉纤维素酶合成的诱导作用和纤维素酶水解特性。

The characteristics of cellulase inducement and hydrolysis by residue of xylooligosaccharide ( XOS ) production were investigated .

里氏木霉DWC5纤维素酶的性质及应用的研究

Studies on Properties of Cellulase from Trichoderma DWC 5 and its Application

里氏木霉和酵母菌混合发酵玉米秸杆的研究

Study on mixed culture fermentation of Trichoderma and yeast for hydrolysis of corn straw

对里氏木霉和酵母菌混合发酵秸杆提高其粗蛋白含量的发酵工艺进行了研究。

The thesis studied how to increase the single cell protein of straw by Trichoderma reese and Candida utilis common fermentation .

里氏木霉生长代谢过程中需要较多的溶解氧，增加通风量可增加溶解氧，有利于菌丝生长，提高产酶能力。

Increasing aeration can increase dissolved oxygen , which is in favor of mycelium growth , and enhance ability of cellulase production .

黑曲霉和里氏木霉原生质体形成与再生条件选择&Ⅱ.菌龄、酶配比及酶解温度和时间的选择

Optimized conditions for protoplast formation and regeneration of Aspergillus niger and Trichoderma ressei ──ⅱ . regularize selection for culture-age 、 enzymes mixture ratio 、 enzymic time and temperature