共查询到19条相似文献,搜索用时 46 毫秒
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漆酶作为一种含铜的多酚氧化酶,可催化降解多种有机污染物且发生反应后唯一的产物是水。漆酶具有催化效率高、贮存要求低等优点,在酶催化领域得到了广泛的关注。漆酶固定化技术是通过物理或化学的方法将游离漆酶和相应载体材料结合起来。与游离漆酶相比,固定化漆酶表现出更高的重复使用性以及在温度、pH、储存、操作方面表现出更高的稳定性。结合目前固定化漆酶技术的研究现状和应用情况,文中介绍了漆酶的结构特征和催化特性,并综述了漆酶固定化技术和固定化漆酶载体材料的研究进展,指出了漆酶的固定化技术和载体材料目前存在的问题和未来的发展前景,旨在为进一步对固定化漆酶的研究和开发应用提供参考依据。 相似文献
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本文简述了酶和细胞的固定化方法及作为载体材料之一的陶瓷的一些特性。结合固定化酶和细胞的性质和应用情况,认为采用陶瓷载体具有一系列的优点。文中列举了采用陶瓷做载体的实例。认为陶瓷作为固定化酶和细胞的载体可促进固定化酶和细胞技术及生物反应器的发展。此外还指出这一领域尚有很多问题还需要深入地进行研究。 相似文献
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无机固定化酶载体材料具有较高的化学稳定性、机械强度和较低的使用成本,特别适合大规模工业应用。固定化酶作为一种高选择性的生物催化剂,在生物体外同样可以高效率的催化化学反应的进行。本文系统的分析和综述了各种无机载体材料的优缺点、制备方法及其在固定化酶方面的研究进展,并对这些固定化载体材料的应用前景进行了预测。 相似文献
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氨基功能载体固定化酶研究进展 总被引:1,自引:0,他引:1
综述了甲壳素、壳聚糖天然氨基功能载体和氨基化硅胶化学合成载体的制备方法,并介绍了利用戊二醛直接固定、载体活化和酶活化固定化酶的方法,最后对氨基功能载体固定化酶的发展趋势加以评述:在利用氨基功能载体固定化酶过程中,有必要有针对性地合成一些新的氨基功能载体,使其反应条件更温和、酶的固载量更大、酶活力回收率更高、稳定性更强。或者针对特定的载体和酶,通过结合配体、添加稳定剂、固定前修饰、固定后修饰和后固定化技术处理等方法,进一步改善固定化酶的性能。 相似文献
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淀粉载体固定化酶的研究 总被引:5,自引:0,他引:5
双醛淀粉是一种淀粉的衍生物,价廉无毒,可作为直接法固定化酶的良好载体。研究pH值,载体醛基含量,淀粉与酶的重量比,时间以及温度等条件对于固定化酶的影响,以寻求最佳反应条件。固定化酶的稳定性优于原酶,其Km值比相应的原酶高。 相似文献
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<正> 酒精本为汽油代用品,是一种取用不竭的能源。过去因石油供应充足,酒精作为能源,久被人们遗忘。近年因石油供应恐慌,古老的酒精工业又被科学家们重视。美国、日本、印度等国对纤维素和半纤维素原料发酵生产酒精尤为活跃。由纤维素原料如木屑等发酵生产酒精有两个关键问题:一是原料的球磨问题,二是纤维素酶的回收问题。原料的球磨问题已经得到解决;使用的纤维素酶可用分子筛薄膜加压过滤,使糖液通过薄膜而外排,未消化的纤维素和纤维素酶仍留在膜内,同时添加新 相似文献
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Wayne H. Pitcher Jr. 《Catalysis Reviews》1975,12(1):37-69
The advent of enzyme immobilization, allowing re-use of enzymes, and essentially eliminating product contamination, has greatly increased the potential of enzymatic processes for industrial use. Although this is a relatively new field of study, the literature is rapidly expanding. The compendium of references prepared by the New England Research Applications Center for Corning Glass Works now lists over 800 papers concerning immobilized enzymes. For this reason the scope of this paper is limited to immobilized enzyme engineering, including reactor design and performance. Although medical and analytical applications of immobilized enzymes are important, they will not be discussed as such here. Another large body of information concerning enzyme immobilization techniques will be treated only briefly as an introduction. Other general articles and reviews [1-5] may be useful in providing additional background information. 相似文献
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In this paper, a suitable technique as well as an adequate material for the immobilization of the fungus Rhizopus oryzae were investigated. This organism has been shown to have potential in the field of food aroma due to the production of extracellular lipolytic enzymes. However, an efficient production system at bioreactor scale for its application to the flavor compounds production is still needed. Among the supports studied, alginate beads were the best carrier materials, leading to the highest lipolytic activities of up to 400 U/L after 3 days of cultivation. Repeated batch cultures were carried out to improve cell concentration and lipolytic activity. The gel beads produced lipolytic enzyme under optimized conditions for consecutive batch fermentations without marked activity loss and deformation attained a maximum level of 715 U/L after three batches. The production of lipolytic enzyme by immobilized Rhizopus oryzae in a 2‐litre airlift bioreactor with the optimized conditions was evaluated. Lipolytic activities of 487 U/L were attained, operating in successive batches without operational problems and the bioparticles (the fungus grows in alginate beads) maintained their shape throughout fermentation. 相似文献