A-Amylase immobilization on amidoximated acrylic microfibres activated by cyanuric chloride

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Abstract

Enzyme immobilization is one of the most important techniques for industrial applications. It makes the immobilized enzyme more stable and advantageous than the free form in different aspects. a-Amylase was immobilized on 4% cyanuric chloride-activated amidoximated acrylic fabric at pH 7.0 with (79%) maximum efficiency. A field emission scanning electron microscope and Fourier transform infrared were used to confirm the immobilization process. Even after being recycled 10 times, the immobilized enzyme lost just 28% of its initial activity. Owing to immobilization, the pH of the soluble a-amylase was shifted from 6.0 to 6.5. The immobilized a-amylases showed thermal stability at 608C, and became more resistant to heavy metal ions. The km values of the immobilized and soluble a-amylases were 9.6 and 3.8 mg starch ml21, respectively. In conclusion, this method shows that the immobilized a-amylase proved to be more efficient than its soluble form, and hence could be used during saccharification of starch.

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APA

Almulaiky, Y. Q., Aqlan, F. M., Aldhahri, M., Baeshen, M., Khan, T. J., Khan, K. A., … Alayafi, A. A. M. (2018). A-Amylase immobilization on amidoximated acrylic microfibres activated by cyanuric chloride. Royal Society Open Science, 5(11). https://doi.org/10.1098/rsos.172164

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