Effect of wood modification on lignin consumption and synthesis of lignolytic enzymes by the fungus Panus (Lentinus) tigrinus

D. A. Kadimaliev; V. V. Kevin; N. A. Atykyan; V. D. Samuilov

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Effect of wood modification on lignin consumption and synthesis of lignolytic enzymes by the fungus Panus (Lentinus) tigrinus

机译：木材改性对虎杖真菌Lantinus（Lentinus）tigrinus消耗木质素和合成木质素酶的影响

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Lignin consumption and synthesis of lignolytic enzymes by the fungus Panus (Lentinus) tigrinus cultivated on solid phase (modified and unmodified birch and pine sawdusts) were studied. The fungus grew better and consumed more readily the birch ligninthan the pine wood. Peroxidase activity was higher in the case of pine sawdust; laccase and lignolytic activities, in the case of birth sawdust. Treatment with ammonia or sulfuric acid decreased lignin consumption by the fungus cultivated on either medum. Modification of sawdust by ultrasound increased lignin consumption and may be recommended for accelerating biodegradation of lignocellulose substrates.

机译：研究了在固相（改性和未改性的桦木和松木锯末）上培养的真菌Panus（Lentinus）tigrinus对木质素的消耗和木质素分解酶的合成。与松木相比，木耳的桦木木质素生长得更好，食用起来也更容易。松木屑的过氧化物酶活性较高;漆酶和木质素分解活动，如生木屑。用氨水或硫酸处理可减少两种培养基上培养的真菌对木质素的消耗。超声波对木屑的改性会增加木质素的消耗量，因此可能被建议用于加速木质纤维素底物的生物降解。

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《Прикладная биохимия и микробиология》 |2003年第5期|共6页
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D. A. Kadimaliev; V. V. Kevin; N. A. Atykyan; V. D. Samuilov;
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1. Effect of Wood Modification on Lignin Consumption and Synthesis of Lignolytic Enzymes by the Fungus Panus (Lentinus) tigrinus [J] . D. A. Kadimaliev, V. V. Revin, N. A. Atykyan, Applied biochemistry and microbiology . 2003,第5期

机译：木材改性对虎杖真菌（Lentinus）的木质素消耗和木质素酶合成的影响
2. Effect of wood modification on lignin consumption and synthesis of lignolytic enzymes by the fungus Panus (Lentinus) tigrinus [J] . D. A. Kadimaliev, V. V. Kevin, N. A. Atykyan, Прикладная биохимия и микробиология . 2003,第5期

机译：木材改性对虎杖真菌Lantinus（Lentinus）tigrinus消耗木质素和合成木质素酶的影响
3. Effect of wood modification on lignin consumption and synthesis of lignolytic enzymes by the fungus Panus (Lentinus) tigrinus [J] . D. A. Kadimaliev, V. V. Kevin, N. A. Atykyan, Прикладная биохимия и микробиология . 2003,第5期

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4. Fungus-Modified Lignin and Its Use in Wood Adhesive for Manufacturing of Wood Composites [C] . Yaolin Zhang, Dian-Qing Yang, Xiang-Ming Wang International Conference on Wood Adhesives . 2015

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5. Multi-Scale Modeling of Lignin Biosynthesis and Other Wood Properties in Populus trichocarpa [D] . Matthews, Megan Leigh. 2019

机译：木质素生物合成的多规模建模与杨树幼虫杨树的其他木质性质
6. Crystallization and preliminary structure analysis of the blue laccase from the ligninolytic fungus Panus tigrinus [O] . Marta Ferraroni, Ilaria Duchi, Nina M. Myasoedova, 2005

机译：木质分解真菌虎耳草中蓝色漆酶的结晶和初步结构分析
7. Lentinus (Panus) tigrinus augmentation of a historically contaminated soil: Matrix decontamination and structure and function of the resident bacterial community [O] . E. Federici, M.A. Giubilei, T. Cajthaml, 2011

机译：Lentinus（Panus）Tigrinus的历史污染的土壤增强：基质去污和居民细菌群落的结构和功能

Effect of wood modification on lignin consumption and synthesis of lignolytic enzymes by the fungus Panus (Lentinus) tigrinus

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