评估纤维素分解真菌共培养对增强纤维素酶和木聚糖酶活性以及对未经处理的木质纤维素材料进行糖化的作用。

IF 2.4 4区 生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
M Kathirgamanathan, S Weerasinghe, T K Bowange, C L Abayasekara, S A Kulasooriya, R R Ratnayake
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引用次数: 0

摘要

利用木质纤维素材料生产生物乙醇受到预处理和酶制剂成本高昂的阻碍。本研究旨在评估四种选定的纤维素分解真菌的联合培养是否比单一培养产生更高的纤维素酶和木聚糖酶活性,并研究联合培养产生的酶是否能在不进行热化学预处理的情况下对选定的植物材料产生更高的糖化作用。在浸没条件下,将真菌分离物毛霉 F118、爪哇青霉 FS7、塔拉酵母菌 F113 和嗜酸塔拉酵母菌 FM9 作为单培养物和二元共培养物培养 7 天。测定了培养滤液中纤维素酶和木聚糖酶的活性,并将培养滤液用于甘蔗叶、豚草叶和风信子茎叶的糖化。对每种植物材料释放的总还原糖和单糖进行了量化。与相应的单一培养物相比,塔拉酵母菌 F113 与爪哇青霉 FS7 的共培养,以及雷氏塔拉酵母菌 F118 与嗜针叶酵母菌 FM9 的共培养所产生的纤维素酶活性明显更高,而对木聚糖酶活性没有影响。总体而言,用雷氏菌 F118 与嗜松果菊菌 FM9 共培养物糖化的豚草叶中总还原糖和单糖含量最高,糖化率达 63.5%。研究发现,豚草叶片最容易在未经预处理的情况下被酶法糖化,而布袋莲的茎叶则最不容易被酶法糖化。因此,该研究表明,真菌共培养是一种很有前景的木质纤维素材料糖化方法,可用于生产生物乙醇。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Evaluation of co-culture of cellulolytic fungi for enhanced cellulase and xylanase activity and saccharification of untreated lignocellulosic material.

Evaluation of co-culture of cellulolytic fungi for enhanced cellulase and xylanase activity and saccharification of untreated lignocellulosic material.

Bioethanol production from lignocellulosic materials is hindered by the high costs of pretreatment and the enzymes. The present study aimed to evaluate whether co-cultivation of four selected cellulolytic fungi yields higher cellulase and xylanase activities compared to the monocultures and to investigate whether the enzymes from the co-cultures yield higher saccharification on selected plant materials without thermo-chemical pretreatment. The fungal isolates, Trichoderma reesei F118, Penicillium javanicum FS7, Talaromyces sp. F113, and Talaromyces pinophilus FM9, were grown as monocultures and binary co-cultures under submerged conditions for 7 days. The cellulase and xylanase activities of the culture filtrates were measured, and the culture filtrates were employed for the saccharification of sugarcane leaves, Guinea grass leaves, and water hyacinth stems and leaves. Total reducing sugars and individual sugars released from each plant material were quantified. The co-culture of Talaromyces sp. F113 with Penicillium javanicum FS7 and of T. reesei F118 with T. pinophilus FM9 produced significantly higher cellulase activities compared to the corresponding monocultures whereas no effect was observed on xylanase activities. Overall, the highest amounts of total reducing sugars and individual sugars were obtained from Guinea grass leaves saccharified with the co-culture of T. reesei F118 with T. pinophilus FM9, yielding 63.5% saccharification. Guinea grass leaves were found to be the most susceptible to enzymatic saccharification without pre-treatment, while water hyacinth stems and leaves were the least. Accordingly, the study suggests that fungal co-cultivation could be a promising approach for the saccharification of lignocellulosic materials for bioethanol production.

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来源期刊
Folia microbiologica
Folia microbiologica 工程技术-生物工程与应用微生物
CiteScore
5.80
自引率
0.00%
发文量
82
审稿时长
6-12 weeks
期刊介绍: Unlike journals which specialize ever more narrowly, Folia Microbiologica (FM) takes an open approach that spans general, soil, medical and industrial microbiology, plus some branches of immunology. This English-language journal publishes original papers, reviews and mini-reviews, short communications and book reviews. The coverage includes cutting-edge methods and promising new topics, as well as studies using established methods that exhibit promise in practical applications such as medicine, animal husbandry and more. The coverage of FM is expanding beyond Central and Eastern Europe, with a growing proportion of its contents contributed by international authors.
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