Use of onion peels as an economical substrate for microbial inulinase production under solid state fermentation

Eurasian Journal of Biological and Chemical Sciences Pub Date : 2022-10-09 DOI:10.46239/ejbcs.1163946

Özden CANLI TAŞAR, G. Tasar

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Abstract

Onion (Allium cepa) is a valuable vegetable and a candidate for sustainable waste management in agri-food industry. The purpose of the current paper was to research the utilization of onion peels to an economical substrate for inulinase production by Yarrowia lipolytica ISF7 strain under solid state fermentation (SSF). SSF is preferred to obtain an effective and low-cost inulinase production. The medium designation was optimized using Taguchi design of experiment. For this purpose, Taguchi L9 orthogonal array layout was applied using the moisture content, initial pH and incubation time as the selected factors at three levels. The results showed that the minimum inulinase activity 22.7 U g-1 of dry substrate (ds) was determined using the 6th experimental setup while the highest inulinase activity 292.2 U gds-1 was measured from 5th experimental setup. The predicted value was determined as 311.6 U gds-1 which was closer to the obtained result (305.1 U gds-1). Consequently, an effective inulinase production can be achieved by Y. lipolytica ISF7 using onion peels as an economic substrate under SSF.

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利用洋葱皮作为固体发酵微生物菊粉酶生产的经济底物

洋葱(Allium cepa)是一种有价值的蔬菜，也是农业食品工业中可持续废物管理的候选者。本论文的目的是研究利用洋葱皮作为溶脂耶氏菌ISF7固态发酵生产菊粉酶的经济底物。SSF是获得高效、低成本菊粉酶生产的首选方法。采用田口试验设计对培养基进行优化。为此，采用田口L9正交阵列布局，以水分含量、初始pH和孵育时间为3个水平的选择因素。结果表明，第6个试验装置测定的菊粉酶活性最低为22.7 U g-1，第5个试验装置测定的菊粉酶活性最高为292.2 U g-1。预测值为311.6 U gds-1，与实际结果(305.1 U gds-1)较为接近。因此，在SSF下，以洋葱皮作为经济底物的聚脂Y. ISF7可以有效地生产菊粉酶。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Eurasian Journal of Biological and Chemical Sciences

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