Investigation into the effect of the culture conditions and optimization on limonene-1,2-diol production from the biotransformation of limonene using Pestalotiopsis mangiferae LaBMicrA-505.

IF 2.1 4区 生物学 Q3 MICROBIOLOGY
Brazilian Journal of Microbiology Pub Date : 2024-09-01 Epub Date: 2024-07-18 DOI:10.1007/s42770-024-01457-0
Elison de Souza Sevalho, Bruno Nicolau Paulino, Antonia Queiroz Lima de Souza, Afonso Duarte Leão de Souza
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引用次数: 0

Abstract

Different bioproducts can be obtained by changing operative condition of biotechnological process, and this bioprocess aspect is a significant approach to be adopted on industrial scale leading to the creation of new natural aroma. Thus, this study aimed to investigate the culture conditions and optimization of the biotransformation of limonene into limonene-1,2-diol using Pestalotiopsis mangiferae LaBMicrA-505 obtained from the Brazilian Amazon. The study started with the investigation of the establishment of culture, followed by optimization of the conditions for biotransformation of R-(+)-limonene to limonene-1,2-diol, using shake flasks. The fresh biomass of P. mangiferae LaBMicrA-505 obtained in liquid media supplemented with yeast-malt extract under with 72 h (stationary phase) performed better diol productivity when compared to other biomasses. Finally, in the modeling of contour plots and surface responses of a central composite design, the use of 4 g l- 1 biomass, 2% of the substrate at 24 °C, 120 rpm, and pH of 6.0 could maximize the production of limonene-1,2-diol, accumulated up to 98.34 ± 1.53% after 96 h of reaction. This study contributed to identified operational condition for the R-(+)-limonene bioconversion scale-up. The endophytic fungus P. mangiferae LaBMicrA-505 proved to be a potent biocatalyst to biotechnologically produce limonene-1,2-diol, an aroma compounds with interesting bioactive features that up to now has been manufactured by extraction from plants with long and not environmentally friendly procedures.

Abstract Image

利用 Pestalotiopsis mangiferae LaBMicrA-505 进行柠檬烯的生物转化,研究培养条件和优化对柠檬烯-1,2-二醇产量的影响。
通过改变生物技术过程的操作条件,可以获得不同的生物产品,这种生物过程是一种重要的工业化方法,可以创造出新的天然香气。因此,本研究旨在利用从巴西亚马逊河流域获得的 Pestalotiopsis mangiferae LaBMicrA-505 来研究将柠檬烯生物转化为柠檬烯-1,2-二醇的培养条件和优化方法。该研究首先调查了培养物的建立情况,然后利用摇瓶优化了将 R-(+)-柠檬烯生物转化为柠檬烯-1,2-二醇的条件。与其他生物质相比,在添加了酵母麦芽提取物的液体培养基中培养 72 小时(静止期)的芒果藻 LaBMicrA-505 的新鲜生物质具有更高的二元醇生产率。最后,在中心复合设计的等高线图和表面反应模型中,在 24 °C、120 转/分和 pH 值为 6.0 的条件下,使用 4 g l- 1 生物质、2% 的底物可最大限度地提高柠檬烯-1,2-二醇的产量,在反应 96 小时后,其累积产量可达 98.34 ± 1.53%。这项研究有助于确定 R-(+)-柠檬烯生物转化放大的操作条件。内生真菌 P. mangiferae LaBMicrA-505 被证明是生物技术生产柠檬烯-1,2-二醇的有效生物催化剂,这种芳香化合物具有有趣的生物活性特征。
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来源期刊
Brazilian Journal of Microbiology
Brazilian Journal of Microbiology 生物-微生物学
CiteScore
4.10
自引率
4.50%
发文量
216
审稿时长
1.0 months
期刊介绍: The Brazilian Journal of Microbiology is an international peer reviewed journal that covers a wide-range of research on fundamental and applied aspects of microbiology. The journal considers for publication original research articles, short communications, reviews, and letters to the editor, that may be submitted to the following sections: Biotechnology and Industrial Microbiology, Food Microbiology, Bacterial and Fungal Pathogenesis, Clinical Microbiology, Environmental Microbiology, Veterinary Microbiology, Fungal and Bacterial Physiology, Bacterial, Fungal and Virus Molecular Biology, Education in Microbiology. For more details on each section, please check out the instructions for authors. The journal is the official publication of the Brazilian Society of Microbiology and currently publishes 4 issues per year.
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