Culture of Trichoderma sp. with biochar to produce high-activity cellulase in a laboratory

BioResources Pub Date : 2024-02-05 DOI:10.15376/biores.19.2.2029-2044

Seongwoo Myeong, Jeonghee Yun

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Abstract

Biochar (BC) was used in Trichoderma sp. culture to produce high-activity cellulase on a laboratory scale. The biochar was added into the flask before being applied to the fermenter to identify the enhancement effect and to determine the best amount of addition and the most suitable incubation period. Cellulase production was performed with a working volume of 4 L, and enzymatic hydrolysis was conducted to evaluate the saccharification ability of the enzyme. During incubation, the activities of three enzymes (Endoglucanase (EG), β-glucosidase (BGL), and cellobiohydrolase (CBH)) were measured for three days, and the cellulase activity was determined using a filter paper unit (FPU). In flask scale, EG, BGL, and CBH activities were increased by 1.4, 2.1, and 1.8 folds, respectively, and the incubation period was shortened by adding BC. In the fermenter scale, EG, BGL, and CBH activities were noticeably enhanced by 12.1, 5.8, and 7.2 folds, respectively, and FPU was 42.1 (9.8 folds). Additionally, the conversion rates of cellulose and steam exploded softwood and hardwood were 109.4%, 75.4%, and 87.3%, which were similar to a commercial enzyme (Cellic CTecⅡ). This study demonstrated that biochar could be used to produce high-activity cellulase in a shorter period and suggests a novel method for effective cellulase production.

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在实验室用生物炭培养毛霉以生产高活性纤维素酶

生物炭（BC）用于毛霉培养，在实验室规模上产生高活性纤维素酶。在将生物炭加入发酵罐之前，先将其加入烧瓶中，以确定生物炭的增强效果，并确定最佳添加量和最合适的培养期。纤维素酶生产的工作容积为 4 升，通过酶水解来评估酶的糖化能力。在培养过程中，连续三天测量三种酶（内切葡聚糖酶（EG）、β-葡萄糖苷酶（BGL）和纤维素水解酶（CBH））的活性，并使用滤纸装置（FPU）测定纤维素酶活性。在烧瓶规模中，EG、BGL 和 CBH 的活性分别提高了 1.4、2.1 和 1.8 倍，加入 BC 缩短了培养时间。在发酵罐规模中，EG、BGL 和 CBH 活性分别明显提高了 12.1、5.8 和 7.2 倍，FPU 为 42.1（9.8 倍）。此外，纤维素和蒸汽引爆软木和硬木的转化率分别为 109.4%、75.4% 和 87.3%，与商业酶（Cellic CTecⅡ）相似。这项研究表明，生物炭可用于在较短时间内生产高活性纤维素酶，并提出了一种有效生产纤维素酶的新方法。

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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BioResources

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