目的分离培养常温下能降解纤维素的细菌。
Objective To isolate and culture the bacteria that can degrade cellulose under room temperature.
Agrivida公司正致力于令植株释放酶以降解自身细胞壁纤维素——利用指令。
Agrivida is working on plants that release enzymes to degrade the cellulose in their own cell walls - on command.
纤维素与木质素同时降解。
纤维素酶作为一种高活性生物催化剂,其在纤维素降解过程中起到重要的作用。
As a high active biocatalyst, cellulase plays an important role in the process of cellulose degradation.
本文从木质纤维素的生物可降解性出发,重点讨论白腐菌降解木质素酶系及其作用机理。
Here we make more discussion on the degradation of lignin by enzymes secreted by white rot fungi on the basis of biodegradation of lignin and cellulose.
采用微波加热与催化剂相结合对植物纤维素进行降解。
The degradation reactions of plant cellulose under microwave irradiation in the presence of catalyst were reported in this paper.
丹尼尔发明的方法的优越之处在于,由纤维素组成的植物细胞壁可以在口服后的初始阶段防止胰岛素被降解。
Daniel approaches the strength of the invention is formed from the cellulose plant cell walls may prevent the initial stage after oral administration of insulin was degraded.
采用正交试验法探讨了乙酸、盐酸等稀酸降解植物纤维素的最佳反应条件。
The optimal reaction conditions of degrading plant cellulose with acetic and hydrochloric acid were discussed by cross experiments.
用正交试验法探讨了以麦秸为原料进行纤维素酶降解的工艺条件。
The technological conditions of degrading cellulose of haulm by cross experiments were studied with cellulase.
综述了超临界水的特性及其在降解废旧塑料、橡胶、纤维素等废弃物及资源化中的应用现状。
The characteristic of supercritical water and application actuality of degradation and resource recycling of waste plastics, waste rubber, and cellulose, etc are completely summarized.
对小麦秸秆纤维素的生物降解进行了探索。
纤维素和木质素是潜在的可再生资源,近年来,利用微生物对它们进行降解已成为研究的热点。
Lignin and cellulose are potential resources for being recycled. The investigation of biodegradation of lignin and cellulose by microorganisms has been more and more active in recent years.
纤维素酶将预处理的纤维质原料降解为酵母可直接利用的D -葡萄糖,转化为酒精。
The pretreated cellulose was degraded into D-glucose by cellulase and then converted into alcohol eventually.
本文以壳聚糖为原料,通过光催化法和纤维素酶法来研究其降解情况。
In this paper, the degradation condition of chitosan has been studied by photocatalysis and cellulase degradation.
纤维素在该反应过程中没有发生明显的降解。
The cellulose has no obvious degradation during the reaction.
同时,指出了罗布麻韧皮中非纤维素生物降解研究的难点在于规范收获方法。
In the meanwhile, it is showed that the direction and objective about the biological decomposition of non - cellulose from Apocynum raw fiber were pointed out.
综述了近年来微生物纤维素酶和动物纤维素酶分子结构和降解机制方面的研究进展。
The research advances of molecular structure and the degradation mechanism of cellulases separated horn microorganism and animal west summarized.
本研究系统探讨了不同饲料铜源对绵羊铜代谢及纤维素降解能力的影响。
The study was conducted to investigate the effects of dietary copper sources on copper metabolism and cellulose degradation in sheep.
研究了添加黄孢原毛平革菌胞外酶对农业废物堆肥中木质纤维素降解及微生物群落演替的影响。
The effect of extracellular enzymes of Phanerochaete Chrysosporium on the lignocellulose degradation and the succession of microbial community in agricultural waste composts were studied.
纤维素的生物降解已经研究了很长的时间,到目前为止,还没有找到一种高效的酶或微生物来充分利用这种生物量。
Biodegradation of cellulose has been studied for a long time, but no enzyme or microorganism has been found to utilize cellulose efficiently.
结果表明,红树林真菌起着半纤维素降解者的作用,沿海红树林环境中存在着可资利用的木聚糖酶产生菌。
The results indicate that the mangrove fungi act as hemicellulose decomposers in the mangrove environment where highly xylanase-productive isolates can be searched for exploitation.
姬松茸在菌丝生长阶段木质素的降解速率大于纤维素和半纤维素,这对纤维素和半纤维素的降解十分有利。
The degradation rate of lignin at the stage of mycelial growth was higher than that of cellulose and hemicellulose, facilitating the degradation of cellulose and hemicellulose of the fungus.
以高效降解木质素为指标,进行木质素降解菌的筛选和纤维素酶处理纤维材料的研究。
In order to effectively biodegrade lignin, lignin-degrading bacteria screening and fiber material treatment with cellulase were conducted.
发现在发酵过程中蜡样芽孢杆菌菌体产酶的过程也就是木质纤维素的降解糖化过程。
The results show that the process of biodegradation of lignocellulose is actually the simultaneous saccharification and fermentation.
利用纤维素酶分解菌的固态发酵法降解高变性脱脂豆粕中的纤维素,研究其对提高豆粕中蛋白质水溶出率的作用。
The solid state fermentation with active cellulase producing strains in increasing the rate of protein dissolved of the high denatured defatted soybean cake was discussed in this thesis.
木质纤维素的结构导致其不易降解。
The structure of lignocellulose makes it hard to be degraded.
之后果肉软化是由PG、纤维素酶作用引起果胶质、纤维素等细胞壁组分降解所致。
Afterwards, flesh softening was caused by the degradation of cell wall components such as pectin and cellulose, which were brought about by the action of PG and cellulase.
人类对纤维素的开发与利用还非常有限,未能完全搞清天然纤维素的生物降解机制是其一个重要原因。
The development and application of cellulose is limited because the mechanism of cellulose bio-degradation has not yet been clearly understood.
采用田间掩埋、平皿培养和CO2释放试验分别测试了再生纤维素膜的生物降解性。
The biodegradability of regenerated cellulose film was tested by soil-burial test in field, culture-dish test and CO2 evolution test respectively.
木聚糖的加入使纤维素降解有所下降,但由于半纤维素含量较少,可以认为木聚糖的加入对半纤维素降解的影响很小。
Addition of xylans enhanced degradation of cellulose but threw no effect on the change of hemicellulose in the process of culture.
应用推荐