Trichoderma viride
英
美
网络 绿色木霉属; 绿色木霉; 绿色木霉菌; 绿色木酶; 绿木霉
双语例句
- Myco-diesel: Alkanes and Their Derivatives Produced by Trichoderma viride Strain LTR-2
绿色木霉菌LTR-2产生的真菌柴油&烃类物质及其衍生物 - Cloning of Cellobiohydrolase ⅱ Encoding Gene from Trichoderma viride and Its Expression in Saccharomyces cerevisiae
绿色木霉CBHⅡ基因的克隆及在酿酒酵母中的表达 - Study on cellulase activity of Trichoderma viride Rw-2
绿色木霉RW-2纤维素酶的酶学性质研究 - Study on Cellulase Production for Non-specific Chitosan Hydrolysis by Trichoderma Viride
绿色木霉产非专一性水解壳聚糖的纤维素酶研究 - Studies on Producing Cellulase from Brewer's Spent Grain through Solid Fermentation by Trichoderma viride
绿色木霉固态发酵啤酒糟生产纤维素酶的研究 - Cellulase production by Trichoderma viride ZY-1 under solid-state fermentation
绿色木霉ZY-1固态发酵产纤维素酶 - Optimization of chitosanase production medium with Trichoderma viride by response surface method
响应面法优化绿色木霉产壳聚糖酶培养基 - Cloning and expression of β-glucosidase ⅰ gene of Trichoderma viride in Saccharomyces cerevisiae and ethanol fermentation of cellulose
绿色木霉BGLⅠ基因在酿酒酵母中的克隆表达及其纤维素乙醇发酵 - Study on Structure and Function of Bifunctional Cellulase-Chitosanase from Trichoderma Viride
绿色木霉产双功能酶的结构与功能研究 - Both Chaetomium globosum and Trichoderma viride are important biocontrol fungi.
球毛壳菌与绿色木霉均为重要的生防真菌。 - 23 species in No-tillage 0~ 10 cm soil and Trichoderma viride and T.
免耕0~10cm土层由23种真菌构成,TrichodermaViride和T.koningii为优势种; - The total DNA of Trichoderma viride was extracted with the classical CTAB method, simplified CTAB method, benzyl chloride method and a rapid DNA extraction method.
采用经典CTAB法、简化CTAB法、氯化苄法和快速提取法对绿色木霉总DNA进行制备。 - Secretory Expression of an Antifungal Protein in the Mould Trichoderma viride
一个抗真菌蛋白在绿色木霉中的分泌表达 - Effects of Trichoderma viride on wheat defense enzymes
绿色木霉对小麦防御酶系的影响 - Research on the DNA extraction method from Trichoderma viride
绿色木霉DNA提取方法研究 - Study on Biocontrol Mechanism of Trichoderma Viride on Rhizoctonia and Trichoderma Preparation
绿色木霉对丝核菌的生防机制及木霉生防制剂研究 - The diseases control and growth enhancement of vegetable seedlings with Trichoderma viride
绿色木霉对蔬菜苗期病害的防治和促生作用 - In Vitro Antagonism of Trichoderma viride Against the Soilborne Fungal Pathogens
绿色木霉对土传病原真菌的体外拮抗作用 - The Purification and Quality Analysis of Cellulase from Trichoderma Viride NUST~ ( 996) Fermentation
绿色木霉NUST~(996)发酵产纤维素酶的提纯和性质分析 - Effect of Trichloroisocyanuric Acid on Growth of Trichoderma viride and Lentinus edodes Mycelial
三氯异氰脲酸对绿霉及香菇菌丝生长的影响 - Biological Characteristics of Trichoderma Viride Strain TR-8
绿色木霉TR-8菌株的生物学特性研究 - Trichoderma viride T23 did not show significant effects on the number of fungi, bacteria and actinomyces in rhizosphere soil of sweet-melon and water-melon.
绿色木霉菌T23菌株对甜瓜及西瓜根际土壤真菌、细菌和放线菌群体数量无显著影响; - Antifungal Mechanisms of Trichoderma viride Strain TR-8 against Fusarium oxysporum
绿色木霉TR-8菌株对尖镰孢的拮抗机制 - Study on the optimum conditions of producing cellulase by Trichoderma viride 3711
绿色木霉3711在稻壳基上产生纤维素酶条件的研究 - This paper deals with the influence of chemical fungicides and chitin additives on the growth and the biocontrol activity of Trichoderma viride strain LR and LTR 2, T. harzianum strain Q1 and Q2, and Gliocladium roseum strain GLR against cotton diseases.
研究了化学杀菌剂对木霉菌生长的影响,探讨了几丁质添加物对绿色木霉菌菌株LR、LTR-2、哈茨木霉菌菌株Q1、Q2和粉红粘帚霉菌菌株GLR防治棉花病害效果的影响。 - The second experiment is studying on the cultural methods of Trichoderma viride.
另外,对绿色木霉的的培养方法进行了初步研究。 - The extracellular Polygalacturonase ( PG) activities in Rhizoctonia and effect of Trichoderma viride on PG activities were investigated.
就丝核菌(Rhizoctonia)胞外多聚半乳糖醛酸酶(Polygalacturonase,PG)及绿色木霉菌(TrichodermaViride)对PG活性的影响进行了研究。 - An endochitinase encoding gene was cloned from the genome DNA of Trichoderma viride. The length of this DNA fragment is 1672 bp and contains a promoter and coding region for mRNA.
利用PCR方法从TrichodermaViride的基因组DNA中克隆了一个42kDa的内切几丁质酶基因,扩增的长度为1672bp,其中包含了启动子和mRNA的编码区。 - The mixed strains and Trichoderma viride shown their advantage over others in conversion efficiency of cellulose and lignin, respectively.
在转化纤维素和木质素效率方面,混合菌和木霉各具优势。 - In this study the mould Trichoderma viride cellulose as the female parent, we screened four high yield strains respectively.
本研究以绿色木霉中的纤维素酶为母本,分别筛选出了4株高产菌株。