TITLE OF MANUSCRIPT: ENHANCEMENT OF LIPOLYTIC CHARACTERISTICS OF A PALM-OIL MILL EFFLUENT-SOURCED KODAMAEA OHMERI PL2

Fungal Territory Pub Date : 2021-12-05 DOI:10.36547/ft.360

O. Odeniyi, O. Ajileye

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Abstract

The hydrolysis of long-chain triglycerides and fats is catalyzed by lipases, important enzymes which have essential biotechnological, medical, and industrial roles. Fungi were isolated from palm-oil mill wastes and screened for their lipid-hydrolyzing potentials. Lipase production and activity characteristics were determined using different substrates. Sixteen, out of the 75 fungi isolated, exhibited lipolytic characteristics. Yeast isolate PL2 gave the highest zone of hydrolysis (44.5 mm) and was identified as Kodamaea ohmeri. This yeast was cultured under diverse media conditions for lipase production and the enzyme produced under each physicochemical condition was determined spectrophotometrically. The optimum parameters for lipase production (1% Tween-80, Ca2+, peptone, 37°C and pH 6) were used to produce lipase which was further purified through (NH4)2SO4 precipitation, membrane dialysis and gel chromatography. The activity of the partially purified lipase increased progressively with each purification stage. The lipase had optimum activity at 50oC and was alkalophilic with peak pH for enzymatic hydrolysis at 8.0. The lipase was supported by 0.5% concentrations of SDS and Triton X-100 (129.9 and 129.4%, respectively), and a 100-fold activity increase with 0.5% Tween-80. Lipase activity was augmented by Manganese and calcium ions (10 mM) but inhibited by NH4+, Fe3+ and Na+. The use of Tween-80 resulted in increased enzyme yield as well as better enzyme characteristics compared to other substrates. The knowledge obtained in this study may be harnessed for commercialization of Kodamaea ohmeri lipase.

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手稿标题:增强棕榈油厂废水来源的马来酸(kodamaea ohmeri pl2)的脂溶特性

长链甘油三酯和脂肪的水解是由脂肪酶催化的，这是一种重要的酶，在生物技术、医学和工业中具有重要的作用。从棕榈油废料中分离到真菌，并对其脂质水解能力进行了筛选。用不同底物测定脂肪酶的产酶量和活性特性。在分离的75株真菌中，有16株具有脂溶性。酵母菌分离物PL2具有最高的水解区(44.5 mm)，鉴定为Kodamaea ohmeri。该酵母在不同的培养基条件下进行了脂肪酶的培养，并在不同的理化条件下测定了酶的产量。脂肪酶的最佳产酶条件为:1% Tween-80、Ca2+、蛋白胨、37℃、pH 6，经(NH4)2SO4沉淀、膜透析和凝胶层析纯化。部分纯化的脂肪酶活性随纯化阶段的增加而逐渐增加。脂肪酶在50℃时具有最佳活性，在8.0℃时具有亲碱性，酶解的峰值pH。0.5%的SDS和Triton X-100(分别为129.9和129.4%)对脂肪酶有支撑作用，0.5%的Tween-80可使脂肪酶活性提高100倍。10 mM的锰离子和钙离子使脂肪酶活性增强，NH4+、Fe3+和Na+抑制脂肪酶活性。与其他底物相比，Tween-80的使用提高了酶产率，并具有更好的酶特性。本研究所得的知识可用于小黄草脂肪酶的商业化。

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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Fungal Territory

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