This strain with higher yield of chitosanase and shorter fermentation period displayed good potential for future applications.
此菌株产酶量高,发酵周期短,具有良好的应用潜力。
The bacteria and epiphyte in activated sludge can produce chitosanase and some non-specific hydrolase, which can degrade chitosan.
污泥中的细菌、真菌等微生物能产生壳聚糖酶以及一些非专一性水解酶,它们对壳聚糖纤维有降解作用。
This paper deals with the incubation conditions for chitosanase producing microorganism basically and DNS method for measuring enzyme activity of chitosanase.
对壳聚糖酶生产菌所产壳聚糖酶的培养条件进行了初步研究,并对测定壳聚糖酶酶活力的DNS法进行了研究。
The chitinase, chitin deaceylase, chitosanase and N-acetyl-glucosaminase were detected to explore sufu mucor hypha autolysis mechanism in the course of sufu fermentation.
对腐乳发酵过程中甲壳素酶、脱乙酰甲壳质酶、壳多糖酶和N-乙酰氨基葡萄糖酶进行研究,旨在探索腐乳毛霉后发酵菌丝自溶机理。
The chitinase, chitin deaceylase, chitosanase and N-acetyl-glucosaminase were detected to explore sufu mucor hypha autolysis mechanism in the course of sufu fermentation.
对腐乳发酵过程中甲壳素酶、脱乙酰甲壳质酶、壳多糖酶和N-乙酰氨基葡萄糖酶进行研究,旨在探索腐乳毛霉后发酵菌丝自溶机理。
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