Rice bran nanofiber composites for stabilization of phytase

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Abstract

This study explores the potential application of rice bran (agro waste) to nano-encapsulate phytase, which is a thermally unstable biologically active enzyme. Rice bran was converted to nanofibers (20–50 nm in diameter) using electrospinning. After optimizing the pH, viscosity, voltage and the distance between electrodes for electrospinning, phytase enzyme was encapsulated and the fibers were cross-linked using sodium tripolyphosphate. Thermal stability of phytase enzyme was improved by 90 °C when they are encapsulated and cross-linked with sodium tripolyphosphate. The activity of the phytase enzyme was monitored at different temperatures. The activity of the pure enzyme was lost at 80 °C while the enzyme encapsulated into nanofibers demonstrated the activity up to 170 °C. This study opens up many opportunities for nanotechnology value addition to many waste materials and also to improve the properties of a range of biomaterials through a sustainable approach.

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APA

Rathnayake, U. A., Senapathi, T., Sandaruwan, C., Gunawardena, S., Karunaratne, V., & Kottegoda, N. (2018). Rice bran nanofiber composites for stabilization of phytase. Chemistry Central Journal, 12(1). https://doi.org/10.1186/s13065-018-0400-y

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