Stimulation of Mn peroxidase activity: a possible role for oxalate in lignin biodegradation.
about
Reverse transcription-PCR analysis of the regulation of the manganese peroxidase gene familyBleaching of Hardwood Kraft Pulp with Manganese Peroxidase from Phanerochaete sordida YK-624 without Addition of MnSO(inf4)Microbial relatives of the seed storage proteins of higher plants: conservation of structure and diversification of function during evolution of the cupin superfamilyA search for ligninolytic peroxidases in the fungus pleurotus eryngii involving alpha-keto-gamma-thiomethylbutyric acid and lignin model dimersUltrahigh (0.93Å) resolution structure of manganese peroxidase from Phanerochaete chrysosporium: Implications for the catalytic mechanismEnhancing Mn(II)-Binding and Manganese Peroxidase Activity in a Designed Cytochrome c Peroxidase through Fine-Tuning Secondary-Sphere InteractionsProteomic analysis of Fusarium solani isolated from the Asian longhorned beetle, Anoplophora glabripennisHeterologous Production and Characterization of Two Glyoxal Oxidases from Pycnoporus cinnabarinusDo the extracellular enzymes cellobiose dehydrogenase and manganese peroxidase form a pathway in lignin biodegradation?A physiological role for oxalic acid biosynthesis in the wood-rotting basidiomycete Fomitopsis palustrisOxalate-metabolising genes of the white-rot fungus Dichomitus squalens are differentially induced on wood and at high proton concentrationHomologous expression of recombinant manganese peroxidase in Phanerochaete chrysosporium.Biodegradation of alkaline lignin by Bacillus ligniniphilus L1.Production of manganese peroxidase and organic acids and mineralization of 14C-labelled lignin (14C-DHP) during solid-state fermentation of wheat straw with the white rot fungus nematoloma frowardiiOxygen activation during oxidation of methoxyhydroquinones by laccase from Pleurotus eryngii.Reduction of the 2,2'-Azinobis(3-ethylbenzthiazoline-6-sulfonate) cation radical by physiological organic acids in the absence and presence of manganeseRole of Organic Acids in the Manganese-Independent Biobleaching System of Bjerkandera sp. Strain BOS55Manganese Peroxidase-Dependent Oxidation of Glyoxylic and Oxalic Acids Synthesized by Ceriporiopsis subvermispora Produces Extracellular Hydrogen Peroxide.Laccase-catalyzed oxidation of Mn(2+) in the presence of natural Mn(3+) chelators as a novel source of extracellular H(2)O(2) production and its impact on manganese peroxidase.Effect of manganese on preferential degradation of lignin by Pleurotus ostreatus during solid-state fermentation.Lignin-Degrading Enzymes of the Commercial Button Mushroom, Agaricus bisporus.Enhancing the production of hydroxyl radicals by Pleurotus eryngii via quinone redox cycling for pollutant removal.Oxalate efflux transporter from the brown rot fungus Fomitopsis palustris.Limits of Versatility of Versatile Peroxidase.Trametes meyenii possesses elevated dye degradation abilities under normal nutritional conditions compared to other white rot fungi.Oxalic acid, versatile peroxidase secretion and chelating ability of Bjerkandera fumosa in rich and limited culture conditionsSynthetic Lignin Mineralization by Ceriporiopsis subvermispora Is Inhibited by an Increase in the pH of the Cultures Resulting from Fungal Growth.Detoxification of azo dyes mediated by cell-free supernatant culture with manganese-dependent peroxidase activity: effect of Mn2+ concentration and H2O2 dose.Oxidation of hydroquinones by the versatile ligninolytic peroxidase from Pleurotus eryngii. H2O2 generation and the influence of Mn2+.Characterization of a novel manganese peroxidase-lignin peroxidase hybrid isozyme produced by Bjerkandera species strain BOS55 in the absence of manganese.Preservation of Ceriporiopsis subvermispora and Lentinula edodes treated wheat straw under anaerobic conditions.Spatial mapping of extracellular oxidant production by a white rot basidiomycete on wood reveals details of ligninolytic mechanism.Biobleaching of Acacia kraft pulp with extracellular enzymes secreted by Irpex lacteus KB-1.1 and Lentinus tigrinus LP-7 using low-cost media.Oxalate production by fungi: its role in pathogenicity and ecology in the soil environmentBiocatalytic generation of Mn(III)-chelate as a chemical oxidant of different environmental contaminantsStrategies for the design and operation of enzymatic reactors for the degradation of highly and poorly soluble recalcitrant compoundsIn vitro degradation of a polymeric dye (Poly R-478) by manganese peroxidase
P2860
Q24519058-C595F562-8C23-4E23-9E6B-203DC473BB84Q24542491-696F50AC-2788-4AAD-8145-B0FEAD80A0B8Q24548519-E8637B5D-86DF-4F84-AE30-357F5643C631Q24550575-07683757-A33F-435D-932E-1C1DCC33FFD8Q27660377-BADD015B-19C9-49A3-8D45-CEE3B0755A93Q27704037-8A9DE2CF-7113-4259-8D7A-DC8BCD1B22D5Q28482186-53DED081-19E3-4AC9-AD52-CC1B5F5E785FQ28595574-06342012-01C7-4E3A-9D28-747CA358D909Q31408769-E3F5BE52-6CC9-4973-9B9F-42EAF04F1BAAQ33944308-CEEC109E-85CF-48E9-A445-33E480F1DB6CQ35088328-A571BA48-2550-4703-8B03-FBAD8D2D322CQ36061648-D4152D47-51D3-447A-8715-FBC175AFD327Q37658360-51AEC434-B8D5-4A35-AED4-B96ABE9DACD0Q39481494-53EC8FF5-0BF1-42BF-BE29-EDA3FF97CC4DQ39484566-03B28270-811D-4C3E-AE24-4126CE5EBEE8Q39560860-6A1BBB91-86B0-4843-8FF8-9B0238116B8FQ39561614-0EA03CE0-7213-4F65-825A-E042386AAE22Q39642590-510A1CB5-D468-4826-8F4D-56893E58C8B9Q39650073-65206876-49C0-40C0-89F1-D222C7255AA4Q39798206-EA01BAF5-3B23-4AAC-857E-E31A68452674Q39914437-4C613421-94A5-461C-BA11-B13FD79E00D3Q41370329-AB1D2228-F6ED-4F74-891F-5493A97DED7EQ41706941-DC92FB6B-A471-42A6-8EC8-FC5C23CC9FA3Q41977790-EFE27FBD-60C0-4323-BCF7-A637B8E5F52EQ42186364-B2E756AC-A5E7-42E0-A36A-89C11B01ABCBQ42835872-D0B2947E-931D-4093-B271-60268E2ED614Q43231232-9C1A2A18-1391-4D09-8D84-923C5DBBCA8FQ43335281-01C37B73-50E7-48CA-93DA-633D7CC30370Q43725650-290F25EA-0744-4AE4-B16E-7A0B9CEAB04CQ47982392-85B5DE21-28F7-477E-8E98-0DAE8094D11AQ48186889-9F4FB7A5-7BEF-4BC1-B06E-E4CF65FDC4BCQ51293411-556CF9EF-300C-4907-B20A-7E513C20D522Q53582575-B9C19129-68F0-4CE6-BA5F-D0FA1A287E32Q56335460-41C2C89C-3083-4E52-B911-CD96E83EAA39Q58462059-2319B453-4DFB-48D7-B2E9-B19400B43861Q58462139-39992FA0-26DD-4C42-855D-310A652A0DEFQ58462215-A09A8905-6B49-4E17-B228-C555755532FC
P2860
Stimulation of Mn peroxidase activity: a possible role for oxalate in lignin biodegradation.
description
1993 nî lūn-bûn
@nan
1993年の論文
@ja
1993年論文
@yue
1993年論文
@zh-hant
1993年論文
@zh-hk
1993年論文
@zh-mo
1993年論文
@zh-tw
1993年论文
@wuu
1993年论文
@zh
1993年论文
@zh-cn
name
Stimulation of Mn peroxidase a ...... late in lignin biodegradation.
@ast
Stimulation of Mn peroxidase a ...... late in lignin biodegradation.
@en
type
label
Stimulation of Mn peroxidase a ...... late in lignin biodegradation.
@ast
Stimulation of Mn peroxidase a ...... late in lignin biodegradation.
@en
prefLabel
Stimulation of Mn peroxidase a ...... late in lignin biodegradation.
@ast
Stimulation of Mn peroxidase a ...... late in lignin biodegradation.
@en
P2860
P356
P1476
Stimulation of Mn peroxidase a ...... late in lignin biodegradation.
@en
P2860
P304
P356
10.1073/PNAS.90.4.1242
P407
P577
1993-02-01T00:00:00Z