Abstract [ Objective ] This study aimed to screen a marine-derived cellulase producing filamentous fungus and to investigate the yielding conditions and celluase activity. [ Method] A total of 25 marine-derived filame...Abstract [ Objective ] This study aimed to screen a marine-derived cellulase producing filamentous fungus and to investigate the yielding conditions and celluase activity. [ Method] A total of 25 marine-derived filamentous fungus were screened out of from Bohai Bay, and one producing cellulase was obtained through Congo red transparent circle method and cellulase activity assay. After that, optimum conditions were examined for cellulase producing and catalyzing. [ Result] CMC-Na could induce ZDTJ097-1-(7 ) strain to produce filter paper cellulase, CMC cellulase and 13-glucosidase. The optimum conditions for ZDTJ097-1-(7) to produce en- zymes were 0.5% CMC-Na, 0. 2% NH4NO3 , pH 6.0 at 25 ℃. [ Conclusion] This study provided reference for furfller development and utilization of cellulase produ-cing fungus ZDTJ097-1-(7).展开更多
基金Supported by the National Natural Science Foundation of China(30971904)
文摘Abstract [ Objective ] This study aimed to screen a marine-derived cellulase producing filamentous fungus and to investigate the yielding conditions and celluase activity. [ Method] A total of 25 marine-derived filamentous fungus were screened out of from Bohai Bay, and one producing cellulase was obtained through Congo red transparent circle method and cellulase activity assay. After that, optimum conditions were examined for cellulase producing and catalyzing. [ Result] CMC-Na could induce ZDTJ097-1-(7 ) strain to produce filter paper cellulase, CMC cellulase and 13-glucosidase. The optimum conditions for ZDTJ097-1-(7) to produce en- zymes were 0.5% CMC-Na, 0. 2% NH4NO3 , pH 6.0 at 25 ℃. [ Conclusion] This study provided reference for furfller development and utilization of cellulase produ-cing fungus ZDTJ097-1-(7).
