Trametes

Different culture conditions of manganese peroxidase from Trametes versicolor were investigated .

研究了多种液体培养条件对变色栓菌产锰过氧化物酶的影响。

Progress on Classification and Identification of Trametes by Molecular Taxonomy

利用分子分类学对栓菌属菌物分类鉴定的研究进展

Studies on fermentation conditions for laccase production from white-rot fungi Trametes versicolor

白腐菌Trametesversicolor产漆酶发酵条件的优化

The preliminary establishment of degradative reaction systems for dyes by Trametes hirsuta

以染料为底物的Trameteshirsuta降解反应体系的建立

Cloning of Laccase Gene from a Constructed cDNA Library of Trametes gallica

粗毛栓菌cDNA文库的构建和漆酶基因的表达分析

Purification and properties of manganese peroxidase from Trametes versicolor

变色栓菌锰过氧化物酶同工酶的纯化及其性质研究

Research on the Biodegradation and Dye Decolourization for Laccase Produced from Trametes versicolor

云芝漆酶的生物降解与染料脱色作用研究

A study on laccase production of Trametes gallica under shaking condition in PAG media was carried out .

作者对粗毛栓菌（Trametesgallica）在PAG培养基条件下摇瓶培养产生漆酶的情况进行了研究。

Study on Bamboo Chemimechanical Pulping with White-rot Fungi Trametes Hirsuta 19-6 Pretreatment

白腐菌Trameteshirsuta19-6预处理竹子化机浆的研究

Cloning and sequence analysis of a laccase gene from mutated strain SAH-12 of Trametes gallica

粗毛栓菌诱变菌株SAH-12漆酶基因的克隆与序列分析

Isolation and Characterization of Promoters from Trametes Gallic

粗毛栓菌（Trametesgallic）基因启动子的分离与鉴定

Objective To study the growth inhibiting and apoptosis induced by Trametes robiniophila Murr in human breast cancer cell line MCF-7 and to approach its mechanisms .

目的研究槐耳清膏在体外对人乳腺癌细胞MCF-7的生长抑制和诱导凋亡作用。

Ligno-cellulose degradation of wheat straw by Trametes gallica

粗毛栓菌降解麦草木质纤维素的试验研究

The Composition and Structure Alterations of Glycosaminoglycan in Primary Hepatic Carcinoma ; HPLC analysis of monosaccharide compositions of mycelial polysaccharides from different Trametes versicolor strains

原发性肝癌组织中糖胺聚糖组成与结构的变化不同云芝菌株菌丝体多糖的单糖组分HPLC分析

The Prevalence Study of Malassezia Species in Neonates ; Decolorization and degradation of coomassie brilliant blue G-250 by laccase from Trametes gallic

新生儿皮肤马拉色菌的流行病学研究粗毛栓菌产漆酶对考马斯亮蓝的脱色降解

Laccase overproducing Trametes gallica strain SAH-12 was obtained from parent strain Trametes gallica by UV mutagenesis .

粗毛栓菌Trametesgallica诱变菌株SAH-12是通过紫外诱变选育得到的漆酶高产菌株。

The phylogenetic tree indicated that the Trametes group was separated from other groups and most strains of Trametes versicolor formed a single clade with a high percentage support .

该树状图显示，栓菌属类群与其他属类群明显分开，Trametesversicolor聚类到一个高支持率的独立分支。

Effects of Fertilization on Ecophysiological Indicators and Xylem Embolism of Four Tree Species ; Purification and Characterization of Xylanases from the White-rot Fungus Trametes Gallica

施肥对四个树种生理指标及木质部栓塞的影响粗毛栓菌木聚糖酶的分离纯化及性质研究

The effect of decolorization of acid fuchsin and methylene blue using Trametes versicolor in two kinds of different nitrogen limited culture medium had been compared , the best quantity of inoculation had been confirmed synchronously .

比较了2种不同液体限氮培养基中杂色云芝对酸性品红和亚甲基蓝的脱色效果，确定了最佳接种量。

A study on the variety of the endo-epiphyte and rhizo-epiphyte of rhododendron microphyton ; HPLC analysis of monosaccharide compositions of mycelial polysaccharides from different Trametes versicolor strains

亮毛杜鹃根际真菌与内生真菌的多样性研究不同云芝菌株菌丝体多糖的单糖组分HPLC分析

The GC-MS mensuration to China green showed that its structure has changed after decolorization , and the TOC mensuration to mixed dye showed that Trametes versicolor could remove organic pollution of dyestuff substrate efficiently in short time .

对单一染料的GC-MS检测表明底物降解最终产物的结构较进水时确有改变；对混合染料的TOC测定表明变色栓菌对底物有机污染的去除快速有效。

The basidiomycete Trametes versicolor is a kind of white-rot fungus and the manganese peroxidase ( MnP ) from it is a potent degrader of lignin .

担子菌纲变色栓菌（Trametesversicolor）是白腐真菌的一种，其产生的锰过氧化物酶（Manganeseperoxidase，MnP）对木质素有着潜在的降解能力。

A novel laccase gene ( lacE ) was cloned from the genomic DNA isolated from Trametes sp. 420 , using the degenerate primers based on the conserved copper-binding regions in fungal laccases . Long distance-inverse PCR ( LD-IPCR ) was used to amplify the flanking sequences of the gene .

根据真菌漆酶铜结合区保守的氨基酸序列设计简并引物，扩增Trametessp.420基因组，结合长距离反向PCR（LD-IPCR），成功获得新型漆酶同工酶基因lacE。