木质素降解

  • 网络lignin degradation
木质素降解木质素降解
  1. He-Ne激光选育高木质素降解率的白腐真菌Lx

    He-Ne laser breeding of the white ROT-FUNGUS l_x with high lignin degradation rate

  2. 木质素降解菌L1原生质体的形成和再生

    Formation and regeneration from lignin degradation fungus L_1 protoplast

  3. 结果表明,第1碳源用量等单因素在不同程度上对6号菌株产生的木质素降解酶Laccase和MnP以及木质素降解率都有一定促进作用。

    The result showed the seven single culture factors promote the activities of Laccase and MnP and the degradation rate of wheat straw lignin in varying degrees .

  4. 白腐真菌分泌的锰过氧化物酶(MnP)是木质素降解酶系统的主要组分,对木质素解聚,纸浆和染料的脱色均有重要作用。

    Manganese peroxidase ( MnP ) secreted by white-rot fungus is the main component of the lignin-degrading enzyme system , it plays an important role in depolymerization of lignin , decolorization of pulp and dye .

  5. 工艺消除了木质素降解酶粗酶液及Novozymes漆酶直接抑制糖化酶作用,分别提高了糖得率19.9%和9.5%。

    The process eliminated the effect that fermentation broth and Novozymes laccase directly inhibit glucoamylase , therefore , the rate of sugar yield increased by 19.9 % and 9.5 % , respectively .

  6. 本文采用连续驯化培养的方法,从农业废物堆肥过程升温、降温和腐熟3个阶段的微生物菌群中分别筛选驯化出3组具有木质素降解能力的复合菌MC1、MC2和MC3。

    Three composite microorganisms ( MC1 , MC2 and MC3 ) able to degrade lignin were screened from three stages of agricultural waste composting by a series of domesticated cultivation , and the three stages were warming stage , cooling stage and falling stage , respectively .

  7. 几种简便的木质素降解真菌定性筛选方法

    Several qualitative methods for the screening of fungi to decompose lignin

  8. 因此,对木质素降解的研究有着重要深远的意义。

    Therefore , the degradation of lignin has important far-reaching significance .

  9. 白腐菌对木质素降解能力的测定

    A preliminary investigation on the degradation of lignin by white rot fungi

  10. 木质素降解菌筛选及葡萄枝条木质素降解研究

    Screening of Lignin-degrading Fungi and Study of Lignin Degradation of Vineyard Pruning

  11. 木质素降解过程中纤维二糖脱氢酶和漆酶协同作用的初步研究

    Preliminary Research on Synergies of Laccase and Cellobiose Dehydrogenase in Lignin Biodegradation

  12. 云芝深层培养生产木质素降解酶的研究

    A Study on Production of Lignin-degrading Enzymes Under Submerged Culture of Polyporus versicolor

  13. 木质素降解菌的筛选及对秸秆的降解研究

    Study on the Screening of the Lignin-degrading Fungus and the Degradation of Straws

  14. 一株产木质素降解酶真菌在造纸法再造烟叶中的应用

    Application of Lignin-degrading Fungus to Paper-making Reconstituted Tobacco

  15. 木质素降解酶降解木质素条件和机理试验研究。

    Experimental studies on the conditions and mechanism of lignin biodegradation by lignolytic enzymes .

  16. 百草枯对木质素降解菌产酶及其生物化学变化的影响

    Impact of exogenous paraquat on enzyme exudation and biochemical changes of lignin degradation fungi

  17. 木质素降解真菌的筛选及产酶特性

    Screening of lignin-degrading fungi and their enzyme production

  18. 白腐菌对污泥堆肥木质素降解及重金属钝化影响

    The Effects of White-Rot Fungi on Lignin Biodegradation and Heavy Metals Inactivation in Sewage Composting

  19. 糙皮侧耳菌木质素降解酶的比较研究

    Comparison of lignin-degrading enzymes from Pleurotus ostreatus

  20. 三种重要木质素降解酶研究进展

    Three important enzymes for lignin degradation

  21. 在颗粒压制过程中,压制能量消耗量随着木质素降解程度的增加而增加。

    During the pelletization , the compression energy consumption was increased with increasing the decomposition of lignin .

  22. 杨木经其处理30天后木质素降解率达到22.67%和15.46%。

    The degradation rate of lignin reached 22.67 % and 15.46 % after treatment of populus for 30 d.

  23. 探讨了用生物技术,即使用木质素降解微生物及木质素降解酶,处理烟梗,对提高烟梗利用价值的影响。

    The paper discusses the effects of treating the cut-stem tobacco by biotechnology in increasing its use value .

  24. 此体系既具有纤维素降解能力,同时还具有木质素降解能力。

    This so-constructed immobilization system possesses the ability not only to degrade lignin but also to degrade cellulose .

  25. 三种白腐菌及其组合菌种木质素降解酶比较研究

    Comparative studies on lignin degradation enzymes produced by three species of white-rot fungi and combination of the strains

  26. 自然界中存在一些木质素降解微生物,可以实现葡萄枝条木质素的高效降解及转化,如白腐真菌。

    There are some lignin-degrading microorganisms which can achieve bio-degradation and microbial conversion efficiently , such as white-rot fungi .

  27. 作为研究木质素降解系统的模式微生物黄孢原毛平革菌,迄今还没有蛋白-蛋白相互作用方面的报道。

    There has been no report on protein-protein interaction in Phanerochaete chrysosporium , a model microorganism for studying lignin degradation .

  28. 显而易见,大多数异生物质的降解发生在活性生长之后,次级代谢木质素降解阶段。

    Apparently most degradation of these xenobiotic compounds occurs after active growth , during the secondary metabolic lignin degradation phase .

  29. 该研究成果将为研究糙皮侧耳对不同种类木质素降解的分子机理奠定基础。

    The results in this study can be as the basis on researching different kinds of lignin degradation mechanism of P. ostreatus .

  30. ~(60)Co-γ射线对白腐真菌和黑曲霉的诱变效应以及对木质素降解的研究

    Study on the Mutation of White-Rot Fungi and Aspergillus Niger by Radiation of ~( 60 ) Co Gamma Rays and Biodegradation to Lignin