| 1. | Degradation of chlorophenols catalyzed by laccase
漆酶催化降解氯酚类有机污染物 |
| 2. | Chlorophenol ; laccase ; catalytical degradation ; immobilized enzyme
氯酚漆酶催化降解酶固定化 |
| 3. | Cloning and sequence analysis of a laccase gene from mutated strain sah - 12 of trametes gallica
12漆酶基因的克隆与序列分析 |
| 4. | Study on the optimum culture conditions of production laccase by immobilized white rot fungi
固定化白腐菌产漆酶培养条件的研究 |
| 5. | Degradation of chlorophenols catalyzed by laccase degradation of chlorophenols catalyzed by laccase
漆酶催化降解氯酚类有机污染物 |
| 6. | Effect of laccase treatment conditions of lignosulphonate on shearing strength of plywood
漆酶活化木素磺酸盐条件对胶合板强度的影响 |
| 7. | Lignin degradation mechanisms of ligninolytic enzyme system , manganese peroxidase , laccase and lignin peroxidase , produced by wood white rot fungi
漆酶和木质素过氧化物酶催化分解木质素的机制 |
| 8. | The reaction of degradation 2 , 4 - dcp catalyzed by laccase followed the first - order reaction and the reaction activation energy is about 44 . 8 kjmol
漆酶降解2 , 4二氯酚的反应属于一级反应,反应活化能约为44 . 8 kjmol |
| 9. | 2 . by morphological and molecular methods the strain b3 was identified as diaporthe and could exist under acidic condition , whose laccase had good thermostability
通过形态学观察及测定其rdnaits序列对菌株b3进行鉴定,该菌株属于子囊菌亚门的腐皮壳属( diaporthe ) 。 |
| 10. | Laccase being catalyzer , the degradation mechanism of 2 , 4 - dichlorophenol , 4 - chlorophenol and 2 - chlorophenol is studied . the effects of reaction time , ph , temperature , concentration of chlorophenols and laccase on the removal of chlorophenols are discussed in detail , as well as the optimum reaction condition
采用漆酶为催化剂,研究2 , 4二氯酚4氯酚和2氯酚的催化降解机理,探讨了反应时间ph值反应温度氯酚浓度以及漆酶浓度对其降解效果的影响和最适降解条件。 |
