Statistical modelling of eugenol benzoate synthesis using Rhizomucor miehei lipase reinforced nanobioconjugates

Statistical modelling of eugenol benzoate synthesis using Rhizomucor miehei lipase reinforced nanobioconjugates

[Display omitted] •Temperature and incubation time mainly affected yield of eugenol benzoate.•Optimization at: 60°C, 6h, 150 IU, ratio alcohol:acid (4:1) gave a 56.13% yield.•RML/CS/MWCNTs are promising biocatalysts for the production of eugenol benzoate. The chemical route for synthesizing eugenol...

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Published in:Process biochemistry (1991) Vol. 51; no. 2; pp. 249 - 262
Main Authors: Manan, Fatin Myra Abd, Rahman, Ida Nurhazwani Abd, Marzuki, Nur Haziqah Che, Mahat, Naji A., Huyop, Fahrul, Wahab, Roswanira Abdul
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-02-2016
Subjects:
Esterification
Eugenol benzoate
Nanobioconjugates
Response surface methodology
Rhizomucor miehei
Rhizomucor miehei lipase
Eugenol benzoate
Rhizomucor miehei lipase
Response surface methodology
Esterification
Nanobioconjugates
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Summary:[Display omitted] •Temperature and incubation time mainly affected yield of eugenol benzoate.•Optimization at: 60°C, 6h, 150 IU, ratio alcohol:acid (4:1) gave a 56.13% yield.•RML/CS/MWCNTs are promising biocatalysts for the production of eugenol benzoate. The chemical route for synthesizing eugenol benzoate is concomitant with a myriad of environmentally unfavorable practices viz. the use toxic chemicals, tedious separation process and emancipation of harmful unwanted by-products. In this perspective, an alternative technique utilizing Rhizomucor miehei lipase (RML) immobilized onto activated chitosan-multiwalled carbon nanotubes (RML/CS/MWCNTs) is proposed. The properties and morphology of the RML/CS/MWCNTs were characterized using field emission scanning electron microscopy (FESEM), Fourier-transform infrared spectroscopy (FTIR) and thermogravimetric analysis (TGA). The approach of response surface methodology employing the central composite design (CCD) based on four parameters (incubation time, temperature, substrate molar ratio, and enzyme loading) were used to optimize the experimental conditions for the RML/CS/MWCNTs catalyzed synthesis of eugenol benzoate. The study found that the high yield production of eugenol benzoate is greatly affected by factors such as temperature and incubation time. Under optimized conditions, the highest yield of eugenol benzoate was obtained (56.13%) at 60°C, 6h of incubation time, enzyme loading (15mg) and molar ratio of eugenol/benzoic acid of 4:1. Therefore, the RML/CS/MWCNTs developed here appear to be a promising alternative yet environmentally friendly biocatalyst for a sustainable production of eugenol benzoate.
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ISSN:1359-5113
1873-3298
DOI:10.1016/j.procbio.2015.12.002