Guaiacyl-type dehydrogenation polymers(DHPs)of lignin were prepared from coniferin by bulk method and end-wise method respectively in the presence of peroxidase,glucose oxidase and β-glucosidase in the laboratory to simulate natural condition in plant.
模拟自然条件,以松柏醇葡萄糖苷为原料,在β-葡萄糖苷酶、葡萄糖氧化酶及过氧化物酶存在下,分别用混合法和滴加法,来合成木质素脱氢聚合物(DHP)。
The appropriate amount of lignin precursor-coniferin was added to plant fiber to promote lignin copolymerization between fibers and form LCC under the roles of lignin peroxidase、β-glucosidase and glucose oxidase.
本论文合成了松柏醇葡萄糖苷,并且以植物纤维为基体,添加适量的木素前驱物松柏醇葡萄糖苷,采用木素过氧化物酶、β-葡萄糖苷酶和葡萄糖氧化酶为主的催化作用体系,使得纤维之间形成木素-碳水化合物复合体并促使纤维之间发生共聚。
This paper studied coniferin in the peroxidase system with glucomannan and pectin complex to improve the strength of paper.
本文研究了在过氧化物酶的体系下利用木素前驱物松柏醇葡萄糖苷与果胶和葡苷聚糖的复合体来提高纸张的强度。
Study on the polymerization of coniferin-[α-~(13)C] with LCC in papermill effluent;
松柏醇-β-D-葡萄糖苷-[α-~(13)C]与造纸废水中LCC的聚合反应
The polymerization reaction between coniferin and soluble lignin in the effluents from paper mill,catalyzed by lignin oxidase,was investigated.
研究了在木素氧化酶催化的体系下,木素前驱物松柏醇-β-D-葡萄糖苷-[α-13C]与废水中可溶性木素的聚合反应方法。
This paper study the mechanism and method of the polyreaction about coniferin with lignin model compound(β-O-4).
研究了木素前驱物松柏醇-β-D-葡萄糖苷-[α-13C]与木素模型化合物的聚合反应方法及其反应机理。
Being the natural trees,pine and cypress have been entrusted feelings and ideas of literati through the ages.
作为自然之物的松柏,为历代文学家的情感和观念所浸润,咏松赋松成为文人们精神生活的一部分。
The natural attributes of pine and cypress and the Chinese traditional culture of thousands of years have many similarities and much correspondence.
松柏是百木之王,和我国人民的生活有着密切的联系,松柏的自然属性与绵延几千年的中国传统文化之间有许多呼应与契合之处。