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生物功能催化膜定点固定化技术研究进展 被引量:4

Research Process of Site-specifically Immobilization in Catalytic Biofunctional Membranes
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摘要 介绍了从生物物理学、生物分析化学、化学工程学和分子生物学等学科角度研究开发的基于定点固定化技术的生物功能催化膜。着重阐述了基因定点突变技术、基因融合技术和翻译修饰技术等新兴定点固定化技术的原理、特点和操作。最后,对生物功能催化膜的研究方向进行了展望。 The efforts of developing catalytic biofunetional membranes eantaining site- specifically immobilized enzyme was summarized involving biophysical chemistry and bioanalytieal chemistry and chemical engineering, together with molecular biology. Several kinds of novel immobilized technology were employed to effectuate the site - specific enzyme membrane immobilization. The principles, operation and applications of site - directed mutagenesis, gene fusion technology, and post- translational modification methods were introduced emphatically, Finally, promising research directions of catalytic biofunefional membranes were predicted.
作者 杨大令 吴迪 蹇锡高
机构地区 大连理工大学化工学院
出处 《化工时刊》 CAS 2007年第4期56-60,共5页 Chemical Industry Times
关键词 定点固定化 生物功能催化膜 空间取向控制 基因定点突变技术 基因融合技术 翻译修饰技术 site - specifically immobiliazation catalytic biofunctional membranes orientationcontrol
分类号 O643.32 [理学—物理化学]
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参考文献17

  • 1Butterfield D A. Biofunetional Membranes [ M] .New York:Plenum Press, 1996
  • 2Butterfield D A, Lee J, Ganapathi S., et al. Biofunctional membranes IV. Active site structure and stability of an immobilized enzyme, papain, on modified polysulfone membranes studies by electron paramagnetic resonance and kinetics [J].J.Membr. Sci. 1994,91(1 - 2) :47 - 64
  • 3Ganapathi S, Butterfield D A, D Bhattaeharyya. Flat sheet and hollow fiber membrane bioreactors:a study of the kinetics and active site eonformational changes of immobilized papain including sorption studies of reaction constituents [ J ] . J. Chem.Technol. Biotechnol. 1995,64(2) : 157 - 164
  • 4Ganapathi S, Butterfield D A, Bhattacharyya D. Kinetics and active fraction determination of a protease enzyme immobilized on funcfionalized membranes: mathematical modeling and experimental results[J]. Biotechnol. Prog. 1998, (14) :865 - 872
  • 5Zhuang P, Butterfield D A. Optimization of eovalentlyeoupling enzymes to polymeric membranes: EPR studies of papain [ J].J.Appl. Polym. Sci. 1993,47(8) :1329 - 1342
  • 6Zhuang P, Butterfield D A. Spin labeling and kinetic studies of a membrane- immobilized proteolytic enzyme [J]. Biotechnol. Prog. 1992,122(8) :204 - 210
  • 7Zhuang P, Butterfield D A. Structural and enzymatic characterizations of papaln immobilized onto vinyl alcohol/vinyl butyral copolymer membrane[J] .J.Membr. Sci. 1992,66 (2 - 3) :247 - 257
  • 8Vishwanath S, Wang J, Bachas L G., et al. Site - directed and random immobilization of subtilisin functionalized membranes:activity determination in aqueous and organic media [ J ].D.Bhattacharyya. Biotech. Bioeng. 1995,60(5):605-616
  • 9Vigmond S J, Iwakura M, Mizutani F., et al. Site - specific immobilization of molecularly engineered dihydrofolate reduetase to gold face[J]. Langmuir, 1994(10) :2870 - 2872
  • 10Huang W, Wang J, Bhattacharyya D. ,et al. Improved enzymarie activity by site - specific immobilization of subtilisin[J]. Anal.Chem. 1997,69(22) :4601 - 4607

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化工时刊
2007年 第4期

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