Xylitol production by a Wickerhamomyces anomalus strain adapted for enhanced tolerance to sugarcane bagasse hemicellulosic hydrolysate with high content of fermentation inhibitors

IF 2.3 4区生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Electronic Journal of Biotechnology Pub Date : 2024-07-17 DOI:10.1016/j.ejbt.2024.05.004

Fernando Bonfiglio , Matías Cagno , Lucía Nuñez , Rossina Castro , Emiliana Botto , Paula Rodríguez

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Abstract

Background

Xylitol, a five-carbon polyalcohol, is used in the food and pharmaceutical industries and as a building block in the synthesis of high-value chemicals. It can be sustainably produced from renewable sources through xylose assimilating microbe fermentation.

Results

We screened microbial strains for xylitol production and identified Wickerhamomyces anomalus Z1 as a key xylitol producer. Utilizing lignocellulosic biomass hydrolysates for xylitol production poses challenges due to microbial sensitivity to inhibitors from biomass pre-treatment. In this study, an adaptive laboratory evolution (ALE) of W. anomalus Z1 was performed by culturing the yeast in a mineral medium supplemented with gradual increases of sugarcane bagasse hemicellulosic hydrolysate (SCHH) obtained by intensified steam explosion pretreatment. The performance of the adapted yeast, named Wickerhamomyces anomalus ALE, was assessed in comparison to the wild-type strain regarding its capacity to produce xylitol using SCHH. The evolved yeast reached a xylitol yield of 0.11 g xylitol/g xylose whereas the wild-type strain could not produce xylitol. Removing acetic acid from SCHH enhanced W. anomalus ALE performance, with optimal results at 75% hydrolyzed hemicellulose, yielding 0.44 g xylitol/g xylose and 13.41 g/L xylitol.

Conclusions

This study demonstrates the potential of W. anomalus ALE in successfully valorizing the hemicellulosic fraction of sugarcane bagasse for sustainable xylitol production.

How to cite: Bonfiglio F, Cagno M, Nuñez L, et al. Xylitol production by a Wickerhamomyces anomalus strain adapted for enhanced tolerance to sugarcane bagasse hemicellulosic hydrolysate with high content of fermentation inhibitors. Electron J Biotechnol 2024;71. https://doi.org/10.1016/j.ejbt.2024.05.004.

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为增强对含有大量发酵抑制剂的甘蔗渣半纤维素水解物的耐受性而改造的 Wickerhamomyces anomalus 菌株生产木糖醇的情况

背景木糖醇是一种五碳多元醇，可用于食品和制药行业，也是合成高价值化学品的基础原料。结果我们筛选了生产木糖醇的微生物菌株，并确定 Wickerhamomyces anomalus Z1 是木糖醇的主要生产者。利用木质纤维素生物质水解物生产木糖醇具有挑战性，因为微生物对生物质预处理产生的抑制剂非常敏感。在本研究中，通过在矿物培养基中培养 W. anomalus Z1 酵母菌，并逐渐添加通过强化汽爆预处理获得的甘蔗渣半纤维素水解物（SCHH），对其进行了适应性实验室进化（ALE）。这种酵母被命名为 Wickerhamomyces anomalus ALE，与野生型菌株相比，它利用 SCHH 生产木糖醇的能力得到了评估。进化酵母的木糖醇产量达到 0.11 克木糖醇/克木糖，而野生型菌株不能生产木糖醇。从 SCHH 中去除乙酸可提高 W. anomalus ALE 的性能，在水解半纤维素达到 75% 时效果最佳，可产生 0.44 克木糖醇/克木糖和 13.41 克/升木糖醇：Bonfiglio F, Cagno M, Nuñez L, et al. Wickerhamomyces anomalus 菌株对甘蔗渣半纤维素水解物的耐受性增强而产生的木糖醇。Electron J Biotechnol 2024;71. https://doi.org/10.1016/j.ejbt.2024.05.004.

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来源期刊

Electronic Journal of Biotechnology 工程技术-生物工程与应用微生物

CiteScore

5.60

自引率

0.00%

发文量

审稿时长

2 months

期刊介绍： Electronic Journal of Biotechnology is an international scientific electronic journal, which publishes papers from all areas related to Biotechnology. It covers from molecular biology and the chemistry of biological processes to aquatic and earth environmental aspects, computational applications, policy and ethical issues directly related to Biotechnology. The journal provides an effective way to publish research and review articles and short communications, video material, animation sequences and 3D are also accepted to support and enhance articles. The articles will be examined by a scientific committee and anonymous evaluators and published every two months in HTML and PDF formats (January 15th , March 15th, May 15th, July 15th, September 15th, November 15th). The following areas are covered in the Journal: • Animal Biotechnology • Biofilms • Bioinformatics • Biomedicine • Biopolicies of International Cooperation • Biosafety • Biotechnology Industry • Biotechnology of Human Disorders • Chemical Engineering • Environmental Biotechnology • Food Biotechnology • Marine Biotechnology • Microbial Biotechnology • Molecular Biology and Genetics •Nanobiotechnology • Omics • Plant Biotechnology • Process Biotechnology • Process Chemistry and Technology • Tissue Engineering