通过交联将脲酶固定在改性鸡蛋壳膜上。

Immobilization of Urease onto Modified Egg Shell Membrane through Cross Linking.

机构信息

Department of Clinical Biochemistry, Isfahan Pharmaceutical Sciences Research Center, School of Pharmacy and Pharmaceutical Sciences, Isfahan University of Medical Sciences, Isfahan, Iran.

Pilot Nano-Biotechnology Department, Pasteur Institute of Iran, Tehran, Iran.

出版信息

Iran Biomed J. 2022 Mar 1;26(2):132-41. doi: 10.52547/ibj.26.2.132.

DOI:10.52547/ibj.26.2.132

PMID:34837893

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8987411/

Abstract

BACKGROUND

Immobilization is an approach in industry to improve stability and reusability of urease. The efficiency of this technique depends on the type of membrane and the method of stabilization.

METHODS

The PEI-modified egg shell membrane was used to immobilize urease by absorption and glutaraldehyde cross-linking methods. The membranes were characterized by Fourier-transform infrared spectroscopy (FTIR) and AFM, and Nessler method was applied to measure the kinetic of the immobilized enzymes. Finally, the storage stability (6 °C for 21 days) and reusability (until enzyme activity reached to zero) of the immobilized enzymes were investigated.

RESULTS

Based on FTIR, three new peaks were observed in both the absorption- (at 1389.7, 1230.8, and 1074.2 cm-1) and the cross-linking (at 1615-1690, 1392.7, 1450 cm-1) immobilized enzymes. The surface roughness of the native membrane was altered after PEI treatment and enzyme immobilization. The optimal pH of cross-linking immobilized enzymes was shifted to a more neutral pH, while it was alkaline in adsorption-immobilized and free enzymes. The reaction time decreased in all immobilized enzymes (100 min for free enzyme vs. 60 and 30 min after immobilizing by adsorption and cross-linking methods, respectively). The optimal temperature for all enzymes was 70 °C and they had a higher Km and a lower Vmax than free enzyme. The stability and reusability of urease were improved by both methods.

CONCLUSION

Our findings propose these approaches as promising ways to enhance the urease efficiency for its applications in industries and medicines.

摘要

背景

固定化技术是工业上提高脲酶稳定性和可重复使用性的一种方法。该技术的效率取决于膜的类型和稳定化方法。

方法

采用壳聚糖修饰的鸡蛋壳膜通过吸附和戊二醛交联的方法固定化脲酶。通过傅里叶变换红外光谱（FTIR）和原子力显微镜（AFM）对膜进行了表征，并用奈斯勒法测定了固定化酶的动力学。最后，研究了固定化酶的储存稳定性（在 6°C 下保存 21 天）和可重复使用性（直到酶活性降至零）。

结果

基于 FTIR，在吸附（在 1389.7、1230.8 和 1074.2 cm-1 处）和交联（在 1615-1690、1392.7 和 1450 cm-1 处）固定化酶中都观察到了三个新的峰。在 PEI 处理和酶固定化后，天然膜的表面粗糙度发生了变化。交联固定化酶的最适 pH 向更中性的 pH 偏移，而吸附固定化酶和游离酶的最适 pH 呈碱性。所有固定化酶的反应时间都缩短了（游离酶为 100 min，吸附和交联固定化酶分别为 60 和 30 min）。所有酶的最适温度均为 70°C，它们的 Km 值较高，Vmax 值较低，比游离酶低。两种方法都提高了脲酶的稳定性和可重复使用性。

结论

我们的研究结果表明，这些方法是提高脲酶效率的有前途的方法，可将其应用于工业和医药领域。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6b94/8987411/961a3cd5b325/ibj-26-132-g001.jpg

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通过交联将脲酶固定在改性鸡蛋壳膜上。

Immobilization of Urease onto Modified Egg Shell Membrane through Cross Linking.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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