Optimization of Endoglucanase Synthesis by Trichoderma harzianum via Taguchi Approach

Q4 Agricultural and Biological Sciences Journal of Tropical Life Science Pub Date : 2023-01-31 DOI:10.11594/jtls.13.01.04

H. Teo, Roswanira Wahab

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Abstract

The oil palm biomass produced by plantations and mills in Malaysia is the largest contributor to the nation’s agro-waste, with the oil palm leaves (OPL) topping the list. Nevertheless, the surplus of OPL might have applicability as the substrate for cultivating lignocellulolytic bio-degraders. Ipso facto, this study employed raw OPL as the carbon source for cultivating Trichoderma harzianum under solid-state fermentation (SSF). Optimization of the SSF process using the Taguchi orthogonal design to produce endoglucanase (CMCase) successfully established the optimal fermentation conditions as the following: 7.00 × 108 spore/g inoculum size, 50% moisture content, pH 12 Mandel’s medium, with 3-day incubation at 40°C. The crude enzyme cocktail exhibited the corresponding maximum activity of 417.49 U/g CMCase. The enzymatic activities were significantly affected by factors, moisture content, inoculum size, and initial pH (p-value < 0.05). In short, the high extracellular CMCase activity of the T. harzianum crude enzyme cocktail may prove valuable in accelerating the saccharification of cellulose for biofuel-and nanocellulose production.

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田口法优化哈茨木霉合成内切葡聚糖酶的工艺

马来西亚种植园和工厂生产的油棕生物质是该国农业废物的最大贡献者，其中油棕叶(OPL)位居榜首。然而，剩余的OPL可能适合作为培养木质纤维素降解生物降解物的底物。事实上，本研究采用生OPL作为碳源，在固态发酵(SSF)下培养哈茨木霉。采用田口正交设计对SSF生产内切葡聚糖酶(CMCase)工艺进行优化，确定了最佳发酵条件为:接种量为7.00 × 108孢子/g，含水量为50%，pH为12的曼德尔培养基，40℃培养3 d。粗酶混合物相应的最大活性为417.49 U/g CMCase。水分含量、接种量和初始pH对酶活性有显著影响(p值< 0.05)。简而言之，harzianum粗酶混合物的高细胞外CMCase活性可能在加速纤维素的糖化以生产生物燃料和纳米纤维素方面证明是有价值的。

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