Immobilization of lipase on porous monodisperse chitosan microspheres

Chen Yang; Liu Junteng; Xia Chunjie; Zhao Chenxi; Ren Zhongqi; Zhang Weidong

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Immobilization of lipase on porous monodisperse chitosan microspheres

机译：脂肪酶在多孔单分散壳聚糖微球上的固定化

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Porous monodisperse chitosan microspheres were synthesized for enzyme immobilization. The microspheres were prepared using microchannels and modified with glutaraldehyde. The microspheres had a mean diameter of 495 mu m; the polydispersity indices were less than 0.08, and the specific surface area was between 121 and 173m(2)/g. Candida sp. 1619 lipase was selected as a model lipase. Immobilization conditions such as enzyme loading, glutaraldehyde concentration, and immobilization time were optimized. The temperature, pH, and storage stability of the free and immobilized enzymes were also investigated. The immobilized enzyme had broad-ranging pH and temperature optima as compared with free enzyme. The storage stability of the immobilized enzyme was higher than that of the free enzyme.

机译：合成了多孔单分散壳聚糖微球用于酶固定。使用微通道制备微球并用戊二醛改性。微球的平均直径为495微米。多分散指数小于0.08，比表面积在121和173m（2）/ g之间。念珠菌选择1619脂肪酶作为模型脂肪酶。优化了酶负载，戊二醛浓度和固定时间等固定条件。还研究了游离酶和固定化酶的温度，pH值和储存稳定性。与游离酶相比，固定化酶具有广泛的pH和最佳温度。固定化酶的储存稳定性高于游离酶。

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《Biotechnology and Applied Biochemistry》 |2015年第1期|共6页
作者
Chen Yang; Liu Junteng; Xia Chunjie; Zhao Chenxi; Ren Zhongqi; Zhang Weidong;
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正文语种 eng
中图分类生物工程学（生物技术）;生物化学;
关键词
chitosan; immobilized enzyme; lipase activity; monodisperse; porous microspheres; protein loading;

机译：壳聚糖固定化酶脂肪酶活性单分散多孔微球蛋白质负载;

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1. Immobilization of lipase on porous monodisperse chitosan microspheres [J] . Chen Yang, Liu Junteng, Xia Chunjie, Biotechnology and Applied Biochemistry . 2015,第1期

机译：脂肪酶在多孔单分散壳聚糖微球上的固定化
2. Immobilized trypsin onto chitosan modified monodisperse microspheres:A different way for improving carrier's surface biocompatibility [J] . Gang Peng, Chunxia Zhao, Bailing Liu, Applied Surface Science . 2012,第15期

机译：将胰蛋白酶固定在壳聚糖修饰的单分散微球上：提高载体表面生物相容性的另一种方法
3. Reusable water oxidation catalyst with dual active center for enhanced water oxidation: Iridium oxide nanoparticles immobilized on monodisperse-porous Mn_5O_8 microspheres [J] . Tosun Rukiye Babacan, Hamaloglu Kadriye Ozlem, Kavakli Cengiz, International journal of hydrogen energy . 2021,第29期

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4. Kinetic Studies of Lipase from Candida rugosa A Comparative Study Between Free and Immobilized Enzyme onto Porous Chitosan Beads [C] . GISELLA M. ZANIN, FLAVIO F. DE MORAES, HEIZIR F. DE CASTRO, Symposium on biotechnology for fuels and chemicals . 2001

机译：来自Candida Rugosa的脂肪酶的动力学研究自由和固定化酶在多孔壳聚糖珠粒之间的比较研究
5. Preparation and characterization of chitosan-containing hydrogel beads for immobilization of Candida rugosa lipase with high retention of its hydrolytic activity. [D] . Alsarra, Ibrahim A. 2002

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6. Fabrication and Characterization of Monodisperse Magnetic Porous Nickel Microspheres as Novel Catalysts [O] . Chao Teng, Jie He, Lili Zhu, 2015

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7. Desempenho da matriz híbrida SiO2-quitosana na imobilização da lipase microbiana de Candida rugosa Performance of hybrid matrix SiO2-chitosan to immobilize microbial lipase from Candida rugosa [O] . Aline S Simões, Rodrigo Y Mori, Raquel Faria, 2011

机译：杂化基质SiO2-壳聚糖固定化皱纹念珠菌微生物脂肪酶的性能杂化基质SiO2-壳聚糖固定化皱纹念珠菌微生物脂肪酶的性能

Immobilization of lipase on porous monodisperse chitosan microspheres

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