In view of the low bioconversion efficiency of agricultural biomass waste in low-temperature environments in winter,a low-temperature-resistant cellulose-degrading strain,L-14,was successfully screened by restrictive ...In view of the low bioconversion efficiency of agricultural biomass waste in low-temperature environments in winter,a low-temperature-resistant cellulose-degrading strain,L-14,was successfully screened by restrictive cultures from humus-rich soil in the Daqing Zhalong wetland region.According to morphological observations and 18S rDNA sequence analysis,the cellulose-degrading strain L-14 was identified as a Neurospora sp,belonging to fungus.Different parameters,such as temperature,initial pH,carbon,nitrogen and lecithin,were optimized using a single-factor experiment and a response surface methodology(RSM).When the temperature was 16°C,the optimal conditions for enzyme production were an initial pH 8.20,10.45 g/L of bran,5.28 g/L of yeast powder,and 4.25 g/L of lecithin.The carboxymethyl cellulase(CMCase)activity of strain L-14 was 63.598 IU/mL.Strain L-14 had a high level of cellulose degradation activity,excellent resistance to low temperatures and environmental adaptability,indicating its good application prospects in substrates pretreatment of biogas engineering.展开更多
基金This work was supported by National Key R&D Program of China(2019YFD1100603)National key research and development plan project(2017YFD0700705)and Postdoctoral Launch Fund of Heilongjiang Provance(LBH-Q13023).
文摘In view of the low bioconversion efficiency of agricultural biomass waste in low-temperature environments in winter,a low-temperature-resistant cellulose-degrading strain,L-14,was successfully screened by restrictive cultures from humus-rich soil in the Daqing Zhalong wetland region.According to morphological observations and 18S rDNA sequence analysis,the cellulose-degrading strain L-14 was identified as a Neurospora sp,belonging to fungus.Different parameters,such as temperature,initial pH,carbon,nitrogen and lecithin,were optimized using a single-factor experiment and a response surface methodology(RSM).When the temperature was 16°C,the optimal conditions for enzyme production were an initial pH 8.20,10.45 g/L of bran,5.28 g/L of yeast powder,and 4.25 g/L of lecithin.The carboxymethyl cellulase(CMCase)activity of strain L-14 was 63.598 IU/mL.Strain L-14 had a high level of cellulose degradation activity,excellent resistance to low temperatures and environmental adaptability,indicating its good application prospects in substrates pretreatment of biogas engineering.