外切纤维素酶，中文例句，英文例句-词都网

1.

Cloning and Expression of Cellobiohydrolase Gene from Trichoderma Longibrachiatum 点击朗读

长梗木霉外切纤维素酶基因的克隆及其表达

2.

Cloning and Expression of Cellobiohydrolase Ⅱ Gene from Trichoderma Longibrachiatum 点击朗读

长梗木霉外切纤维素酶CBH Ⅱ基因的克隆及表达

3.

ECU (Endo Cellulase Units) 点击朗读

内切纤维素酶活力的单位

4.

Characterization and Application of the Recombinant Truncated Endoglucanase Without Cellulose Binding Domain (CBD) Expressed in Pachia Pastoris;

重组内切纤维素酶酶学性能及其应用研究

5.

The Endo-cellulase Influence on the Pulp s Property; 点击朗读

纤维素内切酶预处理对纸浆性能的影响研究

6.

Study on Fermentation Conditions of Marine Bacterium Cellulophaga sp. QY201 for Endoglucanase production

海洋细菌Cellulophaga sp.QY201产内切纤维素酶发酵条件的研究

7.

Studies on Liquid Fermentation of Cellulases and Purification of an Endocellulase from Chaetomium Thermophile;

嗜热毛壳菌纤维素酶液体发酵条件和内切β-葡聚糖酶的分离纯化

8.

Purification and Enzymatic Character Analysis of β-1,4-endoglucanase from Pheretima; 点击朗读

环毛蚓内切纤维素酶的分离纯化及酶学性质研究

9.

Functional Characterization of Cellulase Enzymes in Cytophaga Hutchinsonii 点击朗读

哈氏噬纤维素菌纤维素降解酶的研究

10.

Effect of Ultraviolet Mutagenesis on Cellulase Activity of Chroogomphis rutillus Mycelium 点击朗读

紫外诱变对血红铆钉菇菌丝纤维素酶活性影响

11.

Cellulase activity and synergism of mixed cellulases. 点击朗读

纤维素酶活力及混合纤维素酶协同作用的研究

12.

The Expression of EGⅢ in Pichia Pastoris and the Kinetics of Cellulose Hydrolyze by EGⅢ; 点击朗读

内切纤维素酶EGⅢ在毕赤氏酵母中的表达及其吸附催化动力学研究

13.

Improvement of Cellulase EGV Thermostability by Site-directed Mutagenesis at 49P(del) 点击朗读

49P(del)点突变提高中性纤维素内切酶EGV热稳定性的初步研究

14.

The Effect of Inorganic Salts on the Production of endo-β-D-1,4-glucanase from Cellulose-degrading Fungi

无机盐对纤维素降解真菌产内切β-D-1,4-葡聚糖酶的影响

15.

Enhancement in Hydrolysis of Corncob by Cellulases with the Addition of Xylanases; 点击朗读

木聚糖酶强化纤维素酶对植物纤维的水解

16.

Cloning, Expression and Functional Characterization of Cellulose Fibre Swelling Factor Gene from Trichoderma and the Thermophilic Endoglucanase CelA;

木霉纤维膨胀因子基因克隆表达及其与纤维素内切酶CelA催化功能机制的研究

17.

Study on Fermentation of Cellulose Waste to Produce Cellulase 点击朗读

利用纤维素废弃物发酵生产纤维素酶的研究

18.

Cellulase and lipase specific activities all showed relatively low values. 点击朗读

纤维素酶和脂肪酶的比活力则均较低。



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	您的位置：首页 -> 句库 -> 外切纤维素酶 1. Cloning and Expression of Cellobiohydrolase Gene from Trichoderma Longibrachiatum 长梗木霉外切纤维素酶基因的克隆及其表达 2. Cloning and Expression of Cellobiohydrolase Ⅱ Gene from Trichoderma Longibrachiatum 长梗木霉外切纤维素酶CBH Ⅱ基因的克隆及表达 3. ECU (Endo Cellulase Units) 内切纤维素酶活力的单位 4. Characterization and Application of the Recombinant Truncated Endoglucanase Without Cellulose Binding Domain (CBD) Expressed in Pachia Pastoris; 重组内切纤维素酶酶学性能及其应用研究 5. The Endo-cellulase Influence on the Pulp s Property; 纤维素内切酶预处理对纸浆性能的影响研究 6. Study on Fermentation Conditions of Marine Bacterium Cellulophaga sp. QY201 for Endoglucanase production 海洋细菌Cellulophaga sp.QY201产内切纤维素酶发酵条件的研究 7. Studies on Liquid Fermentation of Cellulases and Purification of an Endocellulase from Chaetomium Thermophile; 嗜热毛壳菌纤维素酶液体发酵条件和内切β-葡聚糖酶的分离纯化 8. Purification and Enzymatic Character Analysis of β-1,4-endoglucanase from Pheretima; 环毛蚓内切纤维素酶的分离纯化及酶学性质研究 9. Functional Characterization of Cellulase Enzymes in Cytophaga Hutchinsonii 哈氏噬纤维素菌纤维素降解酶的研究 10. Effect of Ultraviolet Mutagenesis on Cellulase Activity of Chroogomphis rutillus Mycelium 紫外诱变对血红铆钉菇菌丝纤维素酶活性影响 11. Cellulase activity and synergism of mixed cellulases. 纤维素酶活力及混合纤维素酶协同作用的研究 12. The Expression of EGⅢ in Pichia Pastoris and the Kinetics of Cellulose Hydrolyze by EGⅢ; 内切纤维素酶EGⅢ在毕赤氏酵母中的表达及其吸附催化动力学研究 13. Improvement of Cellulase EGV Thermostability by Site-directed Mutagenesis at 49P(del) 49P(del)点突变提高中性纤维素内切酶EGV热稳定性的初步研究 14. The Effect of Inorganic Salts on the Production of endo-β-D-1,4-glucanase from Cellulose-degrading Fungi 无机盐对纤维素降解真菌产内切β-D-1,4-葡聚糖酶的影响 15. Enhancement in Hydrolysis of Corncob by Cellulases with the Addition of Xylanases; 木聚糖酶强化纤维素酶对植物纤维的水解 16. Cloning, Expression and Functional Characterization of Cellulose Fibre Swelling Factor Gene from Trichoderma and the Thermophilic Endoglucanase CelA; 木霉纤维膨胀因子基因克隆表达及其与纤维素内切酶CelA催化功能机制的研究 17. Study on Fermentation of Cellulose Waste to Produce Cellulase 利用纤维素废弃物发酵生产纤维素酶的研究 18. Cellulase and lipase specific activities all showed relatively low values. 纤维素酶和脂肪酶的比活力则均较低。

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