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biotechnology
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biotechnological applications require large amounts of low-cost enzymes, one of the appropriate approaches for this is to utilize the potential of lignocellulosic wastes, some of which may contain significant concentrations of soluble carbohydrates and inducers of enzyme synthesis, ensuring efficient production of ligninolytic enzymes
biofuel production
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applications of recombinant enzyme in the pulp and paper industry and in the processing of lignocellulosic materials for ethanol and biofuels production
biofuel production
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bioethanol production, the enzymes laccase and manganese peroxidase from Klebsiella pneumoniae are employed for ethanol production from rice and wheat bran biomass which shows 39.29% improved production compared to control, evaluation
biofuel production
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microbial MnPs can convert lignin into biomass so that the sugar can be converted into biofuels
biofuel production
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microbial MnPs can convert lignin into biomass so that the sugar can be converted into biofuels
biofuel production
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microbial MnPs can convert lignin into biomass so that the sugar can be converted into biofuels
biofuel production
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microbial MnPs can convert lignin into biomass so that the sugar can be converted into biofuels
biofuel production
microbial MnPs can convert lignin into biomass so that the sugar can be converted into biofuels
biofuel production
microbial MnPs can convert lignin into biomass so that the sugar can be converted into biofuels
biofuel production
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microbial MnPs can convert lignin into biomass so that the sugar can be converted into biofuels
biofuel production
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microbial MnPs can convert lignin into biomass so that the sugar can be converted into biofuels
biofuel production
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microbial MnPs can convert lignin into biomass so that the sugar can be converted into biofuels
biofuel production
microbial MnPs can convert lignin into biomass so that the sugar can be converted into biofuels
biofuel production
microbial MnPs can convert lignin into biomass so that the sugar can be converted into biofuels
biofuel production
microbial MnPs can convert lignin into biomass so that the sugar can be converted into biofuels
biofuel production
microbial MnPs can convert lignin into biomass so that the sugar can be converted into biofuels
biofuel production
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microbial MnPs can convert lignin into biomass so that the sugar can be converted into biofuels
biofuel production
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microbial MnPs can convert lignin into biomass so that the sugar can be converted into biofuels
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biofuel production
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microbial MnPs can convert lignin into biomass so that the sugar can be converted into biofuels
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biofuel production
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microbial MnPs can convert lignin into biomass so that the sugar can be converted into biofuels
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biofuel production
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microbial MnPs can convert lignin into biomass so that the sugar can be converted into biofuels
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biofuel production
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microbial MnPs can convert lignin into biomass so that the sugar can be converted into biofuels
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biofuel production
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microbial MnPs can convert lignin into biomass so that the sugar can be converted into biofuels
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degradation
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biomimmetic decrosslinking with enzyme or metal complex-catalyzed reactions will enable the development of new devulcanizing strategies for the safe disposal and recycling of waste vulcanized rubber products
degradation
lingnin-degrading enzymes possess oxidative activity against phenolic compoundss, which can be used for bioremediation, biobleaching, and biofuel production
degradation
Mn peroxidases are of much interest biotechnologically because of their potentially applications in bioremdeial waste treatment and in catalyzing difficult chemical transfromations
degradation
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various aspects of the biotechnological uses of these fungi have been studied regarding the nonspecific ligninolytic system of white-red fungi such as the degradation of industrial textile dye effluents and various xenobiotics
degradation
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enzyme is able to detoxify aflatoxin B1. Maximum elimination of 86.0% of aflatoxin B1 is observed after 48 h in a reaction mixture containing 5 nkat of enzyme, and the addition of Tween 80 enhances elimination. The treatment of aflatoxin B1 by 20 nkat MnP reduces the mutagenic activity by 69.2%. Analysis suggests that aflatoxin B1 is first oxidized to aflatoxin B1-8,9-epoxide and then hydrolyzed to aflatoxin B1-8,9-dihydrodiol
degradation
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crude enzyme is able to degrade the antibiotics tetracycline and oxytetracycline. 72.5% of 50 mg/l of tetracycline and 84.3% of 50 mg/l oxytetracycline is degraded by 40 U/l of amnganese peroxidase, within 4 h. With the pH at 3.0-4.8, the temperature at 37-40°C, the Mn2+ concentration between 0.1 and 0.4 mM, the H2O2 concentration of 0.2 mM, and the enzyme-substrate ratio above 2.0 U/mg, the degradation rate reaches the highest
degradation
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fibrous bed culture of Bacillus velezensis strain Al-Dhabi 140 might be an efficient strain for tetracycline removal from artificial wastewater, even from natural wastewater
degradation
Bacillus velezensis Al-Dhabi 140
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fibrous bed culture of Bacillus velezensis strain Al-Dhabi 140 might be an efficient strain for tetracycline removal from artificial wastewater, even from natural wastewater
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degradation
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crude enzyme is able to degrade the antibiotics tetracycline and oxytetracycline. 72.5% of 50 mg/l of tetracycline and 84.3% of 50 mg/l oxytetracycline is degraded by 40 U/l of amnganese peroxidase, within 4 h. With the pH at 3.0-4.8, the temperature at 37-40°C, the Mn2+ concentration between 0.1 and 0.4 mM, the H2O2 concentration of 0.2 mM, and the enzyme-substrate ratio above 2.0 U/mg, the degradation rate reaches the highest
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degradation
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enzyme is able to detoxify aflatoxin B1. Maximum elimination of 86.0% of aflatoxin B1 is observed after 48 h in a reaction mixture containing 5 nkat of enzyme, and the addition of Tween 80 enhances elimination. The treatment of aflatoxin B1 by 20 nkat MnP reduces the mutagenic activity by 69.2%. Analysis suggests that aflatoxin B1 is first oxidized to aflatoxin B1-8,9-epoxide and then hydrolyzed to aflatoxin B1-8,9-dihydrodiol
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degradation
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lingnin-degrading enzymes possess oxidative activity against phenolic compoundss, which can be used for bioremediation, biobleaching, and biofuel production
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environmental protection
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environmental protection
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thiol-mediated degradation of dimeric model compounds and of polymeric lignin by MnP has potential applications in the degradation of industrial lignins
environmental protection
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key enzyme for degradation of environmentally persistent xenobiotics such as pentachlorophenol and dioxins
environmental protection
Deuteromycotina sp.
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degradation of recalcitrant high-molecular-mass compounds, such as nylon and melanin, degradation of xenobiotic compounds, bioremediation, decolorization of wastewater
environmental protection
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polycyclic aromatic hydrocarbon degradation
environmental protection
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mediated system of degradation is potentially valuable for degradation of synthetic polymers and of environmental pollutants
environmental protection
mediated system of degradation is potentially valuable for degradation of synthetic polymers and of environmental pollutants
environmental protection
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degradation of recalcitrant pollutants
environmental protection
as to denim bleaching, sodium hypochlorite treatment is primarily used and this gives rise to problems such as chemical injuries, denim yellowness and reduced denim strength. To ensure the low-cost and ecofriendly advantages, denim biobleaching using oxidizing enzymes such as manganese peroxidases (MnPs) and laccases is an ideal alternative. In the presence of MnPs, denim bleaching by laccases is greatly enhanced. Usage of recombinant white-rot fungi MnP in denim bleaching and PAH degradation
environmental protection
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fibrous bed culture of Bacillus velezensis strain Al-Dhabi 140 might be an efficient strain for tetracycline removal from artificial wastewater, even from natural wastewater
environmental protection
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manganese peroxidases have a potential for degradation of many xenobiotic compounds and produce polymeric products formulated them into valuable tools for bioremediation purposes
environmental protection
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manganese peroxidases have a potential for degradation of many xenobiotic compounds and produce polymeric products formulated them into valuable tools for bioremediation purposes
environmental protection
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manganese peroxidases have a potential for degradation of many xenobiotic compounds and produce polymeric products formulated them into valuable tools for bioremediation purposes
environmental protection
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manganese peroxidases have a potential for degradation of many xenobiotic compounds and produce polymeric products formulated them into valuable tools for bioremediation purposes
environmental protection
manganese peroxidases have a potential for degradation of many xenobiotic compounds and produce polymeric products formulated them into valuable tools for bioremediation purposes
environmental protection
manganese peroxidases have a potential for degradation of many xenobiotic compounds and produce polymeric products formulated them into valuable tools for bioremediation purposes
environmental protection
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manganese peroxidases have a potential for degradation of many xenobiotic compounds and produce polymeric products formulated them into valuable tools for bioremediation purposes
environmental protection
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manganese peroxidases have a potential for degradation of many xenobiotic compounds and produce polymeric products formulated them into valuable tools for bioremediation purposes
environmental protection
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manganese peroxidases have a potential for degradation of many xenobiotic compounds and produce polymeric products formulated them into valuable tools for bioremediation purposes
environmental protection
manganese peroxidases have a potential for degradation of many xenobiotic compounds and produce polymeric products formulated them into valuable tools for bioremediation purposes
environmental protection
manganese peroxidases have a potential for degradation of many xenobiotic compounds and produce polymeric products formulated them into valuable tools for bioremediation purposes
environmental protection
manganese peroxidases have a potential for degradation of many xenobiotic compounds and produce polymeric products formulated them into valuable tools for bioremediation purposes
environmental protection
manganese peroxidases have a potential for degradation of many xenobiotic compounds and produce polymeric products formulated them into valuable tools for bioremediation purposes
environmental protection
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manganese peroxidases have a potential for degradation of many xenobiotic compounds and produce polymeric products formulated them into valuable tools for bioremediation purposes
environmental protection
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the enzyme can degrade sulfamethoxazole (SMX), a broad-spectrum antibiotic (one non-phenolic compound) that has been widely used as a growth promoter in the breeding industry. SMX has been widely detected in effluents, soils, and surface waters in China. SMX is a persistent and polar organic compound in effluent with a half-life time of 17.8 days. More seriously, the SMX in aquatic environments may accelerate the spread of sul genes (antibiotic resistance genes (ARGs)) in microbial populations, and this would have detrimental effects on the ecosystem balance
environmental protection
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manganese peroxidases have a potential for degradation of many xenobiotic compounds and produce polymeric products formulated them into valuable tools for bioremediation purposes
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environmental protection
Bacillus velezensis Al-Dhabi 140
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fibrous bed culture of Bacillus velezensis strain Al-Dhabi 140 might be an efficient strain for tetracycline removal from artificial wastewater, even from natural wastewater
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environmental protection
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manganese peroxidases have a potential for degradation of many xenobiotic compounds and produce polymeric products formulated them into valuable tools for bioremediation purposes
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environmental protection
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manganese peroxidases have a potential for degradation of many xenobiotic compounds and produce polymeric products formulated them into valuable tools for bioremediation purposes
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environmental protection
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manganese peroxidases have a potential for degradation of many xenobiotic compounds and produce polymeric products formulated them into valuable tools for bioremediation purposes
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environmental protection
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thiol-mediated degradation of dimeric model compounds and of polymeric lignin by MnP has potential applications in the degradation of industrial lignins
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environmental protection
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manganese peroxidases have a potential for degradation of many xenobiotic compounds and produce polymeric products formulated them into valuable tools for bioremediation purposes
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environmental protection
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polycyclic aromatic hydrocarbon degradation
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environmental protection
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the enzyme can degrade sulfamethoxazole (SMX), a broad-spectrum antibiotic (one non-phenolic compound) that has been widely used as a growth promoter in the breeding industry. SMX has been widely detected in effluents, soils, and surface waters in China. SMX is a persistent and polar organic compound in effluent with a half-life time of 17.8 days. More seriously, the SMX in aquatic environments may accelerate the spread of sul genes (antibiotic resistance genes (ARGs)) in microbial populations, and this would have detrimental effects on the ecosystem balance
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environmental protection
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mediated system of degradation is potentially valuable for degradation of synthetic polymers and of environmental pollutants
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environmental protection
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environmental protection
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as to denim bleaching, sodium hypochlorite treatment is primarily used and this gives rise to problems such as chemical injuries, denim yellowness and reduced denim strength. To ensure the low-cost and ecofriendly advantages, denim biobleaching using oxidizing enzymes such as manganese peroxidases (MnPs) and laccases is an ideal alternative. In the presence of MnPs, denim bleaching by laccases is greatly enhanced. Usage of recombinant white-rot fungi MnP in denim bleaching and PAH degradation
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environmental protection
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manganese peroxidases have a potential for degradation of many xenobiotic compounds and produce polymeric products formulated them into valuable tools for bioremediation purposes
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environmental protection
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degradation of recalcitrant pollutants
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environmental protection
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the enzyme can degrade sulfamethoxazole (SMX), a broad-spectrum antibiotic (one non-phenolic compound) that has been widely used as a growth promoter in the breeding industry. SMX has been widely detected in effluents, soils, and surface waters in China. SMX is a persistent and polar organic compound in effluent with a half-life time of 17.8 days. More seriously, the SMX in aquatic environments may accelerate the spread of sul genes (antibiotic resistance genes (ARGs)) in microbial populations, and this would have detrimental effects on the ecosystem balance
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industry
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the ligninolytic enzymes of Basidiomycete are of fundamental importance for the efficient bioconversion of plant residues and they are prospective for the various biotechnological applications in pulp and paper, food, textile and dye industries, bioremediation, cosmetics, analytic biochemistry, and many others
industry
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the ligninolytic enzymes of Basidiomycete are of fundamental importance for the efficient bioconversion of plant residues and they are prospective for the various biotechnological applications in pulp and paper, food, textile and dye industries, bioremediation, cosmetics, analytic biochemistry, and many others
industry
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the ligninolytic enzymes of Basidiomycete are of fundamental importance for the efficient bioconversion of plant residues and they are prospective for the various biotechnological applications in pulp and paper, food, textile and dye industries, bioremediation, cosmetics, analytic biochemistry, and many others
industry
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the ligninolytic enzymes of Basidiomycete are of fundamental importance for the efficient bioconversion of plant residues and they are prospective for the various biotechnological applications in pulp and paper, food, textile and dye industries, bioremediation, cosmetics, analytic biochemistry, and many others
industry
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the ligninolytic enzymes of Basidiomycete are of fundamental importance for the efficient bioconversion of plant residues and they are prospective for the various biotechnological applications in pulp and paper, food, textile and dye industries, bioremediation, cosmetics, analytic biochemistry, and many others
industry
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the ligninolytic enzymes of Basidiomycete are of fundamental importance for the efficient bioconversion of plant residues and they are prospective for the various biotechnological applications in pulp and paper, food, textile and dye industries, bioremediation, cosmetics, analytic biochemistry, and many others
industry
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the ligninolytic enzymes of Basidiomycete are of fundamental importance for the efficient bioconversion of plant residues and they are prospective for the various biotechnological applications in pulp and paper, food, textile and dye industries, bioremediation, cosmetics, analytic biochemistry, and many others
industry
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the ligninolytic enzymes of Basidiomycete are of fundamental importance for the efficient bioconversion of plant residues and they are prospective for the various biotechnological applications in pulp and paper, food, textile and dye industries, bioremediation, cosmetics, analytic biochemistry, and many others
industry
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the ligninolytic enzymes of Basidiomycete are of fundamental importance for the efficient bioconversion of plant residues and they are prospective for the various biotechnological applications in pulp and paper, food, textile and dye industries, bioremediation, cosmetics, analytic biochemistry, and many others
nutrition
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biotechnological applications related to animal feeding
nutrition
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biotechnological applications related to animal feeding
nutrition
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biotechnological applications related to animal feeding
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paper production
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paper production
Deuteromycotina sp.
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biobleaching of kraft pulp
paper production
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preferential degradation of lignin in wheat straw, an important property for biotechnological applications related to pulp and paper industry
paper production
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preferential degradation of lignin in wheat straw, an important property for biotechnological applications related to pulp and paper industry
paper production
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bleaching of paper pulp
paper production
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bleaching of paper pulp
paper production
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mediated system of degradation is potentially valuable for pulp and paper industries
paper production
mediated system of degradation is potentially valuable for pulp and paper industries
paper production
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applications of recombinant enzyme in the pulp and paper industry and in the processing of lignocellulosic materials for ethanol and biofuels production
paper production
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manganese peroxidase produced by the white-rot fungus Bjerkandera sp. strain BOS55 is used for lignin oxidation and bleaching of eucalyptus oxygen delignified kraft pulp
paper production
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manganese peroxidase produced by the white-rot fungus Bjerkandera sp. strain BOS55 is used for lignin oxidation and bleaching of eucalyptus oxygen delignified kraft pulp
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paper production
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bleaching of paper pulp
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paper production
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preferential degradation of lignin in wheat straw, an important property for biotechnological applications related to pulp and paper industry
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paper production
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mediated system of degradation is potentially valuable for pulp and paper industries
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paper production
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bleaching of paper pulp
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synthesis
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expression of active manganese peroxidase in an Escherichia coli cell-free protein synthesis system, and optimization of reaction conditions such as the concentrations of hemin, calcium ions, and disulfide bond isomerase. Cell-free synthesized manganese peroxidase purified using the hemagglutinin tag shows higher specific activity than the commercial wild-type enzyme
synthesis
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the enzymes laccase and manganese peroxidase from Klebsiella pneumoniae are employed for ethanol production from rice and wheat bran biomass which shows 39.29% improved production compared to control, evaluation
additional information
maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries detailed overview
additional information
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maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries, detailed overview
additional information
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maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries, detailed overview
additional information
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maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries, detailed overview
additional information
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maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries, detailed overview
additional information
maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries, detailed overview
additional information
maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries, detailed overview
additional information
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maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries, detailed overview
additional information
maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries, detailed overview
additional information
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maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries, detailed overview
additional information
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maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries, detailed overview
additional information
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maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries, detailed overview
additional information
maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries, detailed overview
additional information
maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries, detailed overview
additional information
maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries, detailed overview
additional information
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maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries, detailed overview
additional information
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maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel,agriculture, cosmetic, textile, and food industries, detailed overview
additional information
the recombinant isotzyme MnP3 from Cerrena unicolor strain BBP6, rMnP3-BBP6, has promising biotechnological application potential in textile industries and polycyclic aromatic hydrocarbon bioremediation
additional information
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maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries, detailed overview
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additional information
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maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries, detailed overview
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additional information
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maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries, detailed overview
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additional information
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maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries, detailed overview
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additional information
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maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries, detailed overview
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additional information
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the recombinant isotzyme MnP3 from Cerrena unicolor strain BBP6, rMnP3-BBP6, has promising biotechnological application potential in textile industries and polycyclic aromatic hydrocarbon bioremediation
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additional information
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maganese peroxidase (MnP) has a great application potential and ample opportunities in diverse area, such as alcohol, pulp and paper, biofuel, agriculture, cosmetic, textile, and food industries, detailed overview
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