Some Chaetomium spp. are capable of antagonizing several plant pathogenic fungi through production of antibiotics and mycoparasitism. Secretion of lytic enzymes, mainly including glucanases and chitinases, is consider...Some Chaetomium spp. are capable of antagonizing several plant pathogenic fungi through production of antibiotics and mycoparasitism. Secretion of lytic enzymes, mainly including glucanases and chitinases, is considered the most important step in the mycoparasitic process. In this study, an about 110kDa exo-β-1,3-glucanase from C. spirale ND35 was detected both in culture filtrate and directly on PAGE and IEF gels, as well as chitinases, although protease was not detectable on Litmus milk agar plates. Coiling and penetrating the hyphae of host fungus Valsa mali were observed by scanning electron microscope (SEM), which may be related to the synergistic interaction between β-1,3-glucanase and chitinases. β-1,3-glucanase activity of C. spirale ND35 varied considerably when C. spirale ND35 was grown in different carbon sources during various incubation time, and might be subjected to both induction by substrate and catabolite repression.展开更多
Previous studies showed that Chaetomium globosum ND35 fungus fertilizer can improve the microbial community structure and enzyme activities of replanted soil. However, it remains unclear whether can improve the physio...Previous studies showed that Chaetomium globosum ND35 fungus fertilizer can improve the microbial community structure and enzyme activities of replanted soil. However, it remains unclear whether can improve the physiological and ecological characteristics of plants under successive rotation. In this study, we investigated the photosynthetic, physiological, and biochemical indexes including photosynthetic parameters, chlorophyll fluorescence, and chlorophyll content of 1-yeax-old poplar seedlings under seven different doses (range from 0 to 1.67 g kg-1) of C. globosum ND35 fungus fertilizer to study the effects of fungus fertilizer on photosynthesis of Poplar. Our results showed that: (1) With increasing application of fungus fertilizer in replanted soil, chlorophyll content of poplar leaves (Chl) increased, while physiological indexes such as electron transport rate (ETR), net photosynthetic rate (Pn), quantum efficiency (φ), nitrate reductase (NR) activity and root vigor initially increased and then declined. Meanwhile, heat dissipation that depended on the xanthophyll cycle declined and nonphotochemical quenching (NPQ) initially increased and then decreased. When the dose of C. globosum ND35 fungus fertilizer was 0.67 g kg-1 (T3) and 1.00 g kg-1 (T4), excess light energy of photosynthetic apparatus was reduced, and photosynthetic apparatus distributed more light energy to the direction of photochemical reactions, which improved the efficiency of energy use. Plant height and biomass of leaves, stems, and roots were maximum at T3. We conclude that applying appropriate amounts of C. globosum ND35 fungus fertilizer can improve root physiological activity and capacity for use of light by poplar leaves. This can improve the operating states of the photosynthetic apparatus and lead to increased photosynthetic efficiency of poplar leaves and accumulation of dry matter.This suggests a strategy to alleviate the successive rotation obstacle of soil nutrient depletion.展开更多
文摘Some Chaetomium spp. are capable of antagonizing several plant pathogenic fungi through production of antibiotics and mycoparasitism. Secretion of lytic enzymes, mainly including glucanases and chitinases, is considered the most important step in the mycoparasitic process. In this study, an about 110kDa exo-β-1,3-glucanase from C. spirale ND35 was detected both in culture filtrate and directly on PAGE and IEF gels, as well as chitinases, although protease was not detectable on Litmus milk agar plates. Coiling and penetrating the hyphae of host fungus Valsa mali were observed by scanning electron microscope (SEM), which may be related to the synergistic interaction between β-1,3-glucanase and chitinases. β-1,3-glucanase activity of C. spirale ND35 varied considerably when C. spirale ND35 was grown in different carbon sources during various incubation time, and might be subjected to both induction by substrate and catabolite repression.
基金Supported by National Natural Science Foundation of China(30872024,30571498)Students Research Training (SRT) of Shandong Agricultural University (0802024)~~
基金supported by the China“973”projects(No.2012CB416904)the National Natural Science Foundation of China(Nos.31770706,31370702,31500511)+1 种基金the research and demonstration on the key technology of vegetation restoration and reconstruction in the open pit of in eastern Shandong hilly area(201504406)the Key Project of Natural Science Foundation of Shandong Province,China(Nos.ZR2015JL014,ZR2015CL044)
文摘Previous studies showed that Chaetomium globosum ND35 fungus fertilizer can improve the microbial community structure and enzyme activities of replanted soil. However, it remains unclear whether can improve the physiological and ecological characteristics of plants under successive rotation. In this study, we investigated the photosynthetic, physiological, and biochemical indexes including photosynthetic parameters, chlorophyll fluorescence, and chlorophyll content of 1-yeax-old poplar seedlings under seven different doses (range from 0 to 1.67 g kg-1) of C. globosum ND35 fungus fertilizer to study the effects of fungus fertilizer on photosynthesis of Poplar. Our results showed that: (1) With increasing application of fungus fertilizer in replanted soil, chlorophyll content of poplar leaves (Chl) increased, while physiological indexes such as electron transport rate (ETR), net photosynthetic rate (Pn), quantum efficiency (φ), nitrate reductase (NR) activity and root vigor initially increased and then declined. Meanwhile, heat dissipation that depended on the xanthophyll cycle declined and nonphotochemical quenching (NPQ) initially increased and then decreased. When the dose of C. globosum ND35 fungus fertilizer was 0.67 g kg-1 (T3) and 1.00 g kg-1 (T4), excess light energy of photosynthetic apparatus was reduced, and photosynthetic apparatus distributed more light energy to the direction of photochemical reactions, which improved the efficiency of energy use. Plant height and biomass of leaves, stems, and roots were maximum at T3. We conclude that applying appropriate amounts of C. globosum ND35 fungus fertilizer can improve root physiological activity and capacity for use of light by poplar leaves. This can improve the operating states of the photosynthetic apparatus and lead to increased photosynthetic efficiency of poplar leaves and accumulation of dry matter.This suggests a strategy to alleviate the successive rotation obstacle of soil nutrient depletion.