利用工程菌从甜菜压榨粕水解物中生产d-木糖醇

d-Xylitol Production from Sugar Beet Press Pulp Hydrolysate with Engineered .

作者信息

Knesebeck Melanie, Rüllke Marcel, Schönrock Veronika, Benz J Philipp, Weuster-Botz Dirk

机构信息

Biochemical Engineering, TUM School of Engineering and Design, Technical University of Munich, Boltzmannstraße 15, 85748 Garching, Germany.

Fungal Biotechnology in Wood Science, TUM School of Life Sciences, Technical University of Munich, Hans-Carl-von-Carlowitz-Platz 2, 85354 Freising, Germany.

出版信息

Microorganisms. 2024 Dec 3;12(12):2489. doi: 10.3390/microorganisms12122489.

DOI:10.3390/microorganisms12122489

PMID:39770692

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11727921/

Abstract

d-Xylitol is a low-calorie and anti-cariogenic sweetener suitable for diabetic patients, making it a valuable ingredient in various health-related applications. In this study, we investigated the production of d-xylitol from l-arabinose derived from sugar beet press pulp (SBPP) hydrolysate using an engineered strain. Initial batch studies applying stirred tank bioreactors demonstrated d-xylitol production of 4.6 g L with a yield of 0.37 g d-xylitol g l-arabinose with a synthetic medium. Subsequently, the conversion of enzymatically produced and clarified SBPP hydrolysate was studied. We found that pre-treatment of the enzymatic hydrolysate with activated carbon was essential to remove inhibitory components. Moreover, an automated aeration switch-off was implemented based on the CO signal of the off-gas analyzer of the stirred tank bioreactor to prevent d-xylitol degradation after l-arabinose depletion. This resulted in a final d-xylitol concentration of 4.3 g L with an improved yield of 0.43 g d-xylitol g l-arabinose. The feasibility of utilizing the agricultural residue SBPP for d-xylitol production was successfully demonstrated with engineered .

摘要

d-木糖醇是一种低热量且具有防龋作用的甜味剂，适用于糖尿病患者，这使其成为各种与健康相关应用中的一种有价值成分。在本研究中，我们使用一种工程菌株研究了从甜菜压榨粕（SBPP）水解物中衍生的l-阿拉伯糖生产d-木糖醇的过程。最初在搅拌罐生物反应器中进行的批次研究表明，在合成培养基中，d-木糖醇产量为4.6 g/L，产率为0.37 g d-木糖醇/g l-阿拉伯糖。随后，研究了酶法生产并澄清的SBPP水解物的转化情况。我们发现用活性炭对酶解水解物进行预处理对于去除抑制成分至关重要。此外，基于搅拌罐生物反应器尾气分析仪的CO信号实施了自动通气关闭操作，以防止l-阿拉伯糖耗尽后d-木糖醇降解。这导致最终d-木糖醇浓度为4.3 g/L，产率提高到0.43 g d-木糖醇/g l-阿拉伯糖。利用农业残留物SBPP生产d-木糖醇的可行性已通过工程菌株成功得到证明。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5440/11727921/f99c230b3806/microorganisms-12-02489-g001.jpg

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利用工程菌从甜菜压榨粕水解物中生产d-木糖醇

d-Xylitol Production from Sugar Beet Press Pulp Hydrolysate with Engineered .

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