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 to 88.2%.
以混有少量纤维素的粗木聚糖作碳源,通过分批补料及对培养条件的限制性控制里氏木霉可选择性合成木聚糖酶;
Xylanases could be produced selectively with coarse xylan mixed with cellulose as the carbon source, by controlling culture conditions in fed_batch fermentation.
以混有少量纤维素的粗木聚糖作碳源,通过分批补料及对培养条件的限制性控制里氏木霉可选择性合成木聚糖酶;
Xylanases could be produced selectively with coarse xylan mixed with cellulose as the carbon source, by controlling culture conditions in fed_batch fermentation.
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